索引

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

A

a_screen - クラスの static 変数iceCube.uhe.interactions.Ionization
actionPerformed(ActionEvent) - クラスのメソッドiceCube.uhe.event.SwingRun
actionPerformed(ActionEvent) - クラスのメソッドiceCube.uhe.particles.SwingParticleDemo
add(J3Vector, J3Vector) - クラスの static メソッドgeometry.J3Vector: add vectors a+b
addExpectedNumbers(double, PoissonBinnedLikelihoodCalculator) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Add the expected number in calSignal to the internal map to this object.
addExpectedNumbers(PoissonBinnedLikelihoodCalculator) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Add the expected number in calSignal to the internal map to this object.
addInIceParticle(int, int) - クラスのメソッドiceCube.uhe.analysis.PropagationMatrixFlux: add flavor and doublet of inIce particle to consider.
aidaFileName - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: name of the output Aida Tree file
ALL_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix: For Glashow Resonance
alogGamma(double) - クラスの static メソッドnumRecipes.SpecialFunctions: log(Gamma(a)) function
alogMu - クラスの static 変数numRecipes.RandomGenerator
alpha - クラスの変数iceCube.uhe.analysis.EnergyHistogramMaker
alphaBin - クラスの変数iceCube.uhe.muonModel.ElbertFluxTableFactory
alphaMin - クラスの static 変数iceCube.uhe.muonModel.ElbertFluxTableFactory: Minimum bound of alpha in the tanle. any value of alpha larger than this works in this class.
alphaReference - クラスの変数iceCube.uhe.muonModel.RelativeElbertFluxTableMaker
alphaStepSize - クラスの static 変数iceCube.uhe.muonModel.ElbertFluxTableFactory: Step size of the alpha in the table
applyDumpingFactorToCRFlux() - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
applyExpDumingToCRFlux - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: Whether the expenential dumping factor exp(tau) is applied in calculation of CR flux
areaFactorByWeakCoupling(double) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic: the area given by the Weak coupling constant A = G_F^2 s / pi s: Lorentz invariant energy squared
AtmMuonBundleFitter - iceCube.uhe.analysis のクラス: This class provides methods to fit I3Particles with the CEL approximated AtmMuonBundle flux or precalculated fluxes by PropagatingAtmMuonFlux.
AtmMuonBundleFitter() - クラスのコンストラクタiceCube.uhe.analysis.AtmMuonBundleFitter
AtmMuonBundleFlux - iceCube.uhe.muonModel のクラス: UHE Atmospheric Muon fluxes based on the Elbert model taking into account the muon bundles from EAS cascades.
AtmMuonBundleFlux() - クラスのコンストラクタiceCube.uhe.muonModel.AtmMuonBundleFlux: Default Constructor.
AtmMuonBundleFlux(double, double, double) - クラスのコンストラクタiceCube.uhe.muonModel.AtmMuonBundleFlux: This constuctor sets alpha, mass number, and muon energy threshold by the values given in its arguments.
AtmMuonFlux - iceCube.uhe.muonModel のクラス: UHE Atmospheric Muon fluxes based on the following model are calculated from the table.
AtmMuonFlux() - クラスのコンストラクタiceCube.uhe.muonModel.AtmMuonFlux: Constructor: Energy Flux dF/dE E^2 [GeV/cm^2 sec sr] at 5 TeV is given.
AtmMuonFluxCorsika - iceCube.uhe.muonModel のクラス: UHE Atmospheric Muon fluxes based on the following model are calculated from the table.
AtmMuonFluxCorsika() - クラスのコンストラクタiceCube.uhe.muonModel.AtmMuonFluxCorsika: Constructor: Energy Flux dF/dE E^2 [GeV/cm^2 sec sr] at 10^7 GeV is given. <--- Also, probably replace EFluxArray10PeV with EFluxArray10PeV
autoScale(boolean) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory

B

badRunIC22 - クラスの static 変数iceCube.uhe.analysis.I3ParticleIC22AnalysisFactory
badRunID - クラスの static 変数iceCube.uhe.analysis.I3ParticleAnalysisFactory: Bad Run Numbers.. for the real data analsis only
betaArray - クラスの static 変数iceCube.uhe.interactions.CELbeta
bgMap - クラスの変数iceCube.uhe.analysis.LDPcalculator
bgRate1D - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer
bgRate2D - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: histogram to store number of background events
bgSearchStep - クラスの static 変数numRecipes.FeldmanCousins
BHevapPropagationMatrixFlux - iceCube.uhe.analysis のクラス: It calculates the detectable neutrino event intensity at the Earth Surface as I3ParticleFlux does but the calculation is made by using directly the zenith angle binned propagation matrix and the numerically calculated effective area (I3EffectiveArea.java) without relying on I3Particle MC events.
BHevapPropagationMatrixFlux(int) - クラスのコンストラクタiceCube.uhe.analysis.BHevapPropagationMatrixFlux: constroctor
binominal(double, long, long) - クラスの static メソッドnumRecipes.SpecialFunctions: Binominal distribution nCm mu^m(1-mu)^(n-m)
BRatioTau2A1 - クラスの static 変数iceCube.uhe.decay.Decay: The Branching ratio of Hadronic tau decay puroducing a1's.
BRatioTau2Leptons - クラスの static 変数iceCube.uhe.decay.Decay: The Branching ratio of Leptonic tau decay.
BRatioTau2Pi - クラスの static 変数iceCube.uhe.decay.Decay: The Branching ratio of Hadronic tau decay puroducing pi's.
BRatioTau2Rho - クラスの static 変数iceCube.uhe.decay.Decay: The Branching ratio of Hadronic tau decay puroducing rho's.
BRatioTau2X - クラスの static 変数iceCube.uhe.decay.Decay: The Branching ratio of Hadronic tau decay puroducing others.
BREMSS_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix
Bremsstrahlung - iceCube.uhe.interactions のクラス: The Bremsstrahlung involving UHE leptons propagating undergound rock and ice are calculated in this subclass.
Bremsstrahlung(Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.Bremsstrahlung: Constructor: Register the Particle and ParticlePoint classes
BremsstrahlungDemo - iceCube.uhe.interactions のクラス: Bremsstrahlung.class and KnockOnElectrons.class Demo program
BremsstrahlungDemo() - クラスのコンストラクタiceCube.uhe.interactions.BremsstrahlungDemo
buildCalSignalSetsListFromMap(Map) - クラスのメソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: build the list to store PoissonBinnedLikelihoodCalculator calSignal with various model parameters from Map(Key=PoissonBinnedLikelihoodCalculator).
buildLikelihoodForAlternativeHypothesis(boolean, boolean, boolean) - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: Build the alternaive hypothesis : saturatedLikelihood == true: Build the saturated likelihood from the null hypothesis calNull.
buildLikelihoodForAlternativeHypothesis(boolean, boolean) - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: Build the alternaive hypothesis : saturatedLikelihood == true: Build the saturated likelihood from the null hypothesis calNull.
buildLikelihoodForHybridHypothesis(boolean) - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: Build the "hybrid" hypothesis - signal with floating normalization + nuisance with floating nomalization to maximize the likelihood
buildLikelihoodForNullHypothesis(boolean, boolean) - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: Build the null hypothesis : the (GZK or astro) signal + background.
buildLikelihoodForNullHypothesis(boolean) - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: Build the null hypothesis : the (GZK or astro) signal + background.

C

c - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction: Speed of light
c - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix: Speed of light [cm/sec].
c_screen - クラスの static 変数iceCube.uhe.interactions.Ionization: The coefficinets in the screening effects
calAlter - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
calBG - クラスの変数iceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: the poisson bin data container for BG
calBG - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
calBG - クラスの static 変数iceCube.uhe.analysis.ModelULCalculatorByPoissonBinnedLikelihood
calcChi2(IHistogram1D, IHistogram1D, int, int) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Chi^2 comparison - analysis utility method
calcChi2(IHistogram1D, IHistogram1D, double, double) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Chi^2 comparison - analysis utility method.
calcChi2(IHistogram1D, IHistogram1D) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Chi^2 comparison - analysis utility method.
calculateAndFillModelRejectionFactor(double, boolean) - クラスのメソッドiceCube.uhe.analysis.NPEthresholdOptimizer: Calculate the model rejection factor for each NPE threshold and fill the 1D histogram(ogNPE) with the factors.
calculateAndFillSignalDiscoveryPotential(double, double, boolean) - クラスのメソッドiceCube.uhe.analysis.NPEthresholdOptimizer: Calculate the signal discovery potential for each NPE threshold and fill the 1D histogram(ogNPE) with the factors.
calculateCrossSectionAsPerElectron() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic: Calculate the differential cross section as the one per electron.
calculateCrossSectionAsPerNucleon() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic: Calculate the differential cross section as the one per nucleon.
CalculateI3CoordinateOnEarthCenter - iceCube.uhe.geometry のクラス: This is a demo program for calculating x, y, and z coordinate defined by the IceCobeCoordinate on the EarthCenterCoordinate
CalculateI3CoordinateOnEarthCenter() - クラスのコンストラクタiceCube.uhe.geometry.CalculateI3CoordinateOnEarthCenter
calculateMaxLogLikelihoodRatio(double) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodRatioFactory: calculate the maximized log likelihood ratio log(L/L0).
calculateNeutrinoToLeptonTransfer(double, double) - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: Calculate the charged leptron generation matrix which plays a role of propagation matrix from neutrino to charged lepton.
calculateTransferBHMatrix() - クラスのメソッドiceCube.uhe.propagation.PropagationMatrixBHevaporation
calculateTransferMatrix() - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Calculate the elementary interaction/decay transfer matrix.
calculateUpperLimit() - クラスの static メソッドiceCube.uhe.analysis.ModelULCalculatorByPoissonBinnedLikelihood
calculateYield() - クラスのメソッドiceCube.uhe.analysis.BHevapPropagationMatrixFlux: Calculate the neutrino yield [cm^2 sec sr] in form of the table by reasing out the pre-stored propagation matrix data via the PropagationMatrixFactory.
calculateYield() - クラスのメソッドiceCube.uhe.analysis.PropagationMatrixFlux: Calculate the neutrino yield [cm^2 sec sr] in form of the table by reasing out the pre-stored propagation matrix data via the PropagationMatrixFactory.
calculateYield() - クラスのメソッドiceCube.uhe.analysis.QuickNCPropagationMatrixFlux: Calculate the neutrino yield [cm^2 sec sr] in form of the table by reasing out the pre-stored propagation matrix data via the PropagationMatrixFactory.
calculateYield() - クラスのメソッドiceCube.uhe.analysis.QuickPropagationMatrixFlux: Calculate the neutrino yield [cm^2 sec sr] in form of the table by reasing out the pre-stored propagation matrix data via the PropagationMatrixFactory.
calH0 - クラスの変数numRecipes.PoissonBinnedLikelihoodRatioFactory
calH1 - クラスの変数numRecipes.PoissonBinnedLikelihoodRatioFactory
calHybrid - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
CalibrateLeptonTransferMatrix - iceCube.uhe.interactions のクラス: Calibrate Lepton Transfer matrix when inelasiticity is extremele small such as tau's pair creation and calculation of the differential cross section for z = 1- y ~ 1 could not avoid numerical error.
CalibrateLeptonTransferMatrix() - クラスのコンストラクタiceCube.uhe.interactions.CalibrateLeptonTransferMatrix
calNuisanceSignal - クラスの変数iceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: container for Nuisance Signal for the profole likelihood
calNuisanceSignal - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
calNuisanceSignal - クラスの static 変数iceCube.uhe.analysis.ModelULCalculatorByPoissonBinnedLikelihood
calNull - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
calSignal - クラスの変数iceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: the container for Signal with the set of parameter values to be tested
calSignal - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
calSignal - クラスの static 変数iceCube.uhe.analysis.ModelULCalculatorByPoissonBinnedLikelihood
calSignalSetsList - クラスの変数iceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: List to store the PoissonBinnedLikelihoodCalculator calSignal with various model parameters
calSignalToMaxLH - クラスの変数iceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: container of the signal with the model parameters that maximized likelihood
cascade - クラスの変数iceCube.uhe.muonModel.AtmMuonBundleFlux: Cascade flucutation calculator object
CascadeFluctuationFactory - iceCube.uhe.muonModel のクラス: This class describes the intrinsic flucuation of atmospheric muon energies due to extensive airshower process.
CascadeFluctuationFactory() - クラスのコンストラクタiceCube.uhe.muonModel.CascadeFluctuationFactory: default constructor
CELbeta - iceCube.uhe.interactions のクラス: This static class provides the inelasticity coefiicient beta [cm^2/g] as a function of muon energy
CELbeta() - クラスのコンストラクタiceCube.uhe.interactions.CELbeta
changeAOmega() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Change the MC area and solid angle to the Corska configuration
changeParticle(int, int) - クラスのメソッドiceCube.uhe.event.Event: Change the particle to the different kind.
CHARGED_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix
chargePerNucleon - クラスの変数iceCube.uhe.interactions.GlashowResonanceLeptonic
CheckKSTest - numRecipes のクラス
CheckKSTest() - クラスのコンストラクタnumRecipes.CheckKSTest
CheckLeptonTransferMatrix - iceCube.uhe.interactions のクラス: Check Lepton Transfer matrix when inelasiticity is extremele small such as tau's pair creation and calculation of the differential cross section for z = 1- y ~ 1 could not avoid numerical error.
CheckLeptonTransferMatrix() - クラスのコンストラクタiceCube.uhe.interactions.CheckLeptonTransferMatrix
CheckNeutrinoChargeMtx - iceCube.uhe.interactions のクラス: Check the generated transfer matrix of the Neutrino Charged Interactions
CheckNeutrinoChargeMtx() - クラスのコンストラクタiceCube.uhe.interactions.CheckNeutrinoChargeMtx
collideNow(RandomGenerator) - クラスのメソッドiceCube.uhe.event.Event: The propagation particle now collides with Nuclear/Nucleon and change its energy via intertactions determined in GetPhysicalPathLength().
compare(I3ParticleAnalysisFactory, I3ParticleAnalysisFactory, IHistogramFactory) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter: Make a chi2-based statistical comparison between the MC with the muon bundle flux and the real data
compare(I3ParticleAnalysisFactory, I3ParticleAnalysisFactory, I3ParticleAnalysisFactory, IHistogramFactory) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter: Make a chi2-based statistical comparison between the two MCs (one with E**-1, another with E**-2, for example) with the muon bundle flux and the real data
compare(I3ParticleAnalysisFactory, I3ParticleAnalysisFactory, I3ParticleAnalysisFactory, double, IHistogramFactory) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter: Make a chi2-based statistical comparison between the two MCs (one with E**-1, another with E**-2, for example) with the muon bundle flux and the real data.
ComparePropMtxWithGlashow - iceCube.uhe.propagation のクラス
ComparePropMtxWithGlashow() - クラスのコンストラクタiceCube.uhe.propagation.ComparePropMtxWithGlashow
confidenceLevel - クラスの static 変数iceCube.uhe.analysis.ModelULCalculatorByPoissonBinnedLikelihood
confidenceLevel - クラスの static 変数numRecipes.FeldmanCousins: confidence level of the flux interval
confidenceLevel_of_R - クラスの変数iceCube.uhe.muonModel.AtmMuonBundleFlux: Confidence level of the Energy rato parameter R = (E_muon/E0)/ Bar(E_muon/E0).
configure() - クラスのメソッドgeometry.J3Line: Configuration.
configure() - クラスのメソッドiceCube.uhe.event.SwingRunIceTray
configurePropagationGeometry() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Configure the particle progation geometry.
configurePropagationGeometry() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Configure the particle progation geometry.
considerAtmosphericCurvature - クラスの変数iceCube.uhe.muonModel.AtmMuonBundleFlux
considerAtmosphericCurvature(boolean) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: If true, then the Elbert formula takes into account the atmosphere density profile is curved following the earth curvature.
considerMultiTracks - クラスの変数iceCube.uhe.analysis.BHevapPropagationMatrixFlux: Whether consider the case of double muons/taus, and a pair of mu + tau.
ConstrainEvolutionZmax - iceCube.uhe.analysis のクラス: Calculate the p-value of GZK Yoshida-Ishihara in the plane of m zmax.
ConstrainEvolutionZmax() - クラスのコンストラクタiceCube.uhe.analysis.ConstrainEvolutionZmax
construct() - クラスのメソッドiceCube.uhe.event.SwingWorker: Compute the value to be returned by the get method.
Coordinate - geometry のクラス: This base class defines universal coordinates.
Coordinate() - クラスのコンストラクタgeometry.Coordinate: Constructor.
Coordinate(J3Vector) - クラスのコンストラクタgeometry.Coordinate: Constructor.
Coordinate(J3Vector, J3UnitVector, J3UnitVector) - クラスのコンストラクタgeometry.Coordinate: Constructor.
copyExpectedNumbers(double, PoissonBinnedLikelihoodCalculator) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Copy the expected number in calSignal to the internal map to this object.
copyExpectedNumbers(PoissonBinnedLikelihoodCalculator) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Copy the expected number in calSignal to the internal map to this object.
copyObservedNumbers(PoissonBinnedLikelihoodCalculator) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Copy the observed number in calSignal to the internal map to this object.
copyPoissonBinnedData(PoissonBinnedLikelihoodCalculator) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: copy the Poisson bin data (observed number, expected number) stored in PoissonBinnedLikelihoodCalculator cal.
copyPoissonBinnedDataMap(Map) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: copy the Map containing the Poisson binned data.
copyPropagationMatrixData(double[][]) - クラスのメソッドiceCube.uhe.particles.I3Particle: Copy the given propagation matrix to the energy distribution matrix dN/dLogEin.
copyTheReplicaResults() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: This method copies the map to store the results frmo the replica experiment to the map for storing the real results.
copyTransferMatrix() - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Copy the transfer matrix
copyTransferMatrixFromStore() - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Copy the transfer matrix from Store matrix
corsikaMMC() - クラスのメソッドiceCube.uhe.analysis.I3ParticleBuilder: Call this method before executing process() when you read out the Corsika-mmc track primary.
CosmicRayEnergyCalculator - iceCube.uhe.muonModel のクラス
CosmicRayEnergyCalculator() - クラスのコンストラクタiceCube.uhe.muonModel.CosmicRayEnergyCalculator
CosmicRayFlux - iceCube.uhe.muonModel のクラス: UHE Cosmic Ray Flux
CosmicRayFlux() - クラスのコンストラクタiceCube.uhe.muonModel.CosmicRayFlux: Constructor: Calculate log(dJ/dE) @ E = energyBase
cosZbinWidth - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder: cos z bin width
cosZenithBinWidth - クラスの変数iceCube.uhe.analysis.I3ParticleFlux
crEnergyMax - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: maximal CR proton energy determined from the maximum neutrino energy [GeV]
crEnergyRef - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: The reference energy of cosmic ray spectrum at which the relative intensity to that extrapolated from the GZK regime is calculated
Criteria - iceCube.uhe.analysis のクラス: Criteria class defines requrements of the IceCube EHE events that are subject to futher analysis.
Criteria() - クラスのコンストラクタiceCube.uhe.analysis.Criteria: constructor.
CriteriaIC22 - iceCube.uhe.analysis のクラス
CriteriaIC22() - クラスのコンストラクタiceCube.uhe.analysis.CriteriaIC22: Constructor
criticalEnergy - クラスの static 変数iceCube.uhe.muonModel.AtmMuonBundleFlux: critical energy of ionization loss

D

debugFlag - クラスの変数numRecipes.PoissonBinnedLikelihoodCalculator
Decay - iceCube.uhe.decay のクラス: Particle decay such as tau -> mu -> e is handled in this class.
Decay(Particle) - クラスのコンストラクタiceCube.uhe.decay.Decay: Constructor: Register the Particle involved.
decrement(J3Vector, J3Vector) - クラスのメソッドgeometry.J3Vector: decrement vectors a-=b
default_precision - クラスの static 変数numRecipes.PoissonBinnedLikelihoodCalculator
definePropagatingParticle(int, int, double, J3Line) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Method to set primary energy, flavor, doublet for defining the input propagating particle, and its geomerty(for future use).
definePropagatingParticle(int, int, double) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator
definePropagatingParticle(int, int, double, J3Line) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Method to set primary energy, flavor, doublet for defining the input propagating particle, and its geomerty(for future use).
definePropagatingParticle(int, int, double) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2
definePropagationGeometry(double, double, double, double, double) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: define the geometry of propagating particles double x_ice3 : x [cm] of a particle trajectory point in the IceCube coordinate double y_ice3 : y [cm] of a particle trajectory point in the IceCube coordinate double z_ice3 : z [cm] of a particle trajectory point in the IceCube coordinate double nadirAngle_ice3 : nadir angle [deg] define in the IceCube coodrinate double azimuthAngle_ice3 : nadir angle [deg] define in the IceCube coodrinate
definePropagationGeometry(double, double, double, double, double, double) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: define the geometry of propagating particles double x_ice3 : x [cm] of a particle trajectory point in the IceCube coordinate double y_ice3 : y [cm] of a particle trajectory point in the IceCube coordinate double z_ice3 : z [cm] of a particle trajectory point in the IceCube coordinate double nx,ny,nz : unit direction vector represented by the IceCube coordinate
definePropagationGeometry(J3Line) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: define the geometry of propagating particles J3Line particleAxisIce3 : The primary particle trajectory.
definePropagationGeometry(double, double, double, double, double) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: define the geometry of propagating particles double x_ice3 : x [cm] of a particle trajectory point in the IceCubeGen2 coordinate double y_ice3 : y [cm] of a particle trajectory point in the IceCubeGen2 coordinate double z_ice3 : z [cm] of a particle trajectory point in the IceCubeGen2 coordinate double nadirAngle_ice3 : nadir angle [deg] define in the IceCubeGen2 coodrinate double azimuthAngle_ice3 : nadir angle [deg] define in the IceCubeGen2 coodrinate
definePropagationGeometry(double, double, double, double, double, double) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: define the geometry of propagating particles double x_ice3 : x [cm] of a particle trajectory point in the IceCubeGen2 coordinate double y_ice3 : y [cm] of a particle trajectory point in the IceCubeGen2 coordinate double z_ice3 : z [cm] of a particle trajectory point in the IceCubeGen2 coordinate double nx,ny,nz : unit direction vector represented by the IceCubeGen2 coordinate
definePropagationGeometry(J3Line) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: define the geometry of propagating particles J3Line particleAxisIce3 : The primary particle trajectory.
deltaRes - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
DemoGen2GeometryConfiguration - iceCube.uhe.geometry のクラス: This is a demo program for configuration of the propagation geometry defined by IceCubeGen2Coordinate.
DemoGen2GeometryConfiguration() - クラスのコンストラクタiceCube.uhe.geometry.DemoGen2GeometryConfiguration
detectorDepth - クラスの static 変数iceCube.uhe.muonModel.CosmicRayEnergyCalculator
detectorDepth - クラスの static 変数iceCube.uhe.propagation.NeutrinoQuickPropagator
dFMuDLogEarray - クラスの変数iceCube.uhe.muonModel.ElbertFluxTableFactory
dFMuDLogEReferece - クラスの変数iceCube.uhe.muonModel.RelativeElbertFluxTableMaker
dimensionHist - クラスの変数iceCube.uhe.analysis.YieldAnalysisFactory: Dimension of histogram
dimensionLogE - クラスの変数iceCube.uhe.analysis.EnergyHistogramMaker
dimensionLogE - クラスの変数iceCube.uhe.analysis.PropagationMatrixDrawer
dimensionNPE - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: dimension of the logNPE. bin
dimensionY - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: dimension of the parameter y. usually cosZenith, but depends on analysis
distanceMaximum - クラスの static 変数iceCube.uhe.propagation.NeutrinoQuickPropagator
doesCutOffExists() - クラスのメソッドiceCube.uhe.muonModel.CosmicRayFlux: Tell if the CR spectrum calculated in this object has a cutoff feature at the highest energy end
doesThisEventPass(I3Particle) - クラスのメソッドiceCube.uhe.analysis.Criteria: Determine if the iceParticle satisfies the criteria
doesThisEventPassEHESuperCut(I3Particle) - クラスのメソッドiceCube.uhe.analysis.Criteria: Tell Whether this event passes the "EHE super cut" .
doesThisEventPassSimpleCut(I3Particle) - クラスのメソッドiceCube.uhe.analysis.Criteria: Tell Whether this event passes the "simple cut" .
doNOTapplyDumpingFactorToCRFlux() - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
doNotIncludeNuisanceSignal() - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: Do not let the likelihood calculation include the nuisance signal
DrawAngularAtmMuonFlux - iceCube.uhe.muonModel のクラス
DrawAngularAtmMuonFlux() - クラスのコンストラクタiceCube.uhe.muonModel.DrawAngularAtmMuonFlux
DrawAngularEventAtmMuonFlux - iceCube.uhe.event のクラス
DrawAngularEventAtmMuonFlux() - クラスのコンストラクタiceCube.uhe.event.DrawAngularEventAtmMuonFlux
DrawAngularEventFlux - iceCube.uhe.event のクラス
DrawAngularEventFlux() - クラスのコンストラクタiceCube.uhe.event.DrawAngularEventFlux
DrawAngularNeutrinoFlux - iceCube.uhe.neutrinoModel のクラス
DrawAngularNeutrinoFlux() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawAngularNeutrinoFlux
DrawAngularQuickNeutrinoFlux - iceCube.uhe.neutrinoModel のクラス
DrawAngularQuickNeutrinoFlux() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawAngularQuickNeutrinoFlux
DrawAtmMuonBundle - iceCube.uhe.analysis のクラス
DrawAtmMuonBundle() - クラスのコンストラクタiceCube.uhe.analysis.DrawAtmMuonBundle
DrawAtmMuonBundle2D - iceCube.uhe.analysis のクラス
DrawAtmMuonBundle2D() - クラスのコンストラクタiceCube.uhe.analysis.DrawAtmMuonBundle2D
DrawAtmMuonBundleByElbertFluxTable - iceCube.uhe.analysis のクラス
DrawAtmMuonBundleByElbertFluxTable() - クラスのコンストラクタiceCube.uhe.analysis.DrawAtmMuonBundleByElbertFluxTable
DrawAtmMuonBundleByRelativeWeight - iceCube.uhe.analysis のクラス
DrawAtmMuonBundleByRelativeWeight() - クラスのコンストラクタiceCube.uhe.analysis.DrawAtmMuonBundleByRelativeWeight
DrawAtmMuonBundleCombined - iceCube.uhe.analysis のクラス
DrawAtmMuonBundleCombined() - クラスのコンストラクタiceCube.uhe.analysis.DrawAtmMuonBundleCombined
DrawAtmMuonBundleFlux - iceCube.uhe.muonModel のクラス
DrawAtmMuonBundleFlux() - クラスのコンストラクタiceCube.uhe.muonModel.DrawAtmMuonBundleFlux
DrawAtmMuonBundleFluxRatio - iceCube.uhe.analysis のクラス
DrawAtmMuonBundleFluxRatio() - クラスのコンストラクタiceCube.uhe.analysis.DrawAtmMuonBundleFluxRatio
DrawAtmMuonFluxIntegral - iceCube.uhe.muonModel のクラス
DrawAtmMuonFluxIntegral() - クラスのコンストラクタiceCube.uhe.muonModel.DrawAtmMuonFluxIntegral
DrawBGSpectrumByJaidaHisto - iceCube.uhe.analysis のクラス
DrawBGSpectrumByJaidaHisto() - クラスのコンストラクタiceCube.uhe.analysis.DrawBGSpectrumByJaidaHisto
DrawCosmicRayFlux - iceCube.uhe.muonModel のクラス
DrawCosmicRayFlux() - クラスのコンストラクタiceCube.uhe.muonModel.DrawCosmicRayFlux
DrawCosThetaRelation - iceCube.uhe.muonModel のクラス
DrawCosThetaRelation() - クラスのコンストラクタiceCube.uhe.muonModel.DrawCosThetaRelation
DrawCREnergyForBundle - iceCube.uhe.muonModel のクラス
DrawCREnergyForBundle() - クラスのコンストラクタiceCube.uhe.muonModel.DrawCREnergyForBundle
DrawCRFlux - iceCube.uhe.neutrinoModel のクラス
DrawCRFlux() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawCRFlux
DrawEffAreaTable - iceCube.uhe.analysis のクラス
DrawEffAreaTable() - クラスのコンストラクタiceCube.uhe.analysis.DrawEffAreaTable
drawEnergyDistributionOnXfig() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Draw Energy distribution with slices of cos(zenith) with its bin width
DrawEventArrayForEachInteraction - iceCube.uhe.event のクラス
DrawEventArrayForEachInteraction() - クラスのコンストラクタiceCube.uhe.event.DrawEventArrayForEachInteraction
DrawEventAtmMuonFluxIntegral - iceCube.uhe.event のクラス
DrawEventAtmMuonFluxIntegral() - クラスのコンストラクタiceCube.uhe.event.DrawEventAtmMuonFluxIntegral
DrawEventFlux - iceCube.uhe.event のクラス
DrawEventFlux() - クラスのコンストラクタiceCube.uhe.event.DrawEventFlux
DrawEventFluxIntegral - iceCube.uhe.event のクラス
DrawEventFluxIntegral() - クラスのコンストラクタiceCube.uhe.event.DrawEventFluxIntegral
DrawEventMatrix - iceCube.uhe.event のクラス
DrawEventMatrix() - クラスのコンストラクタiceCube.uhe.event.DrawEventMatrix
DrawEventMatrix_single - iceCube.uhe.event のクラス
DrawEventMatrix_single() - クラスのコンストラクタiceCube.uhe.event.DrawEventMatrix_single
drawEventsWithAtmMuonWeights(String) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: draw atmospheric muon weighted-events
drawEventsWithGZKWeights(String) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: draw GZK flux weighted-events
drawEventsWithNoWeights() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: draw unweighted-events
DrawEvolutionZmaxContour - iceCube.uhe.analysis のクラス
DrawEvolutionZmaxContour() - クラスのコンストラクタiceCube.uhe.analysis.DrawEvolutionZmaxContour
DrawEvolutionZmaxContour - iceCube.uhe.neutrinoModel のクラス
DrawEvolutionZmaxContour() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawEvolutionZmaxContour
drawFirstGuessQualityDistributionOnXfig() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Draw First Guess Quality distribution with slices of Npe
DrawGlashowResonance - iceCube.uhe.interactions のクラス
DrawGlashowResonance() - クラスのコンストラクタiceCube.uhe.interactions.DrawGlashowResonance
DrawInIceEffArea - iceCube.uhe.analysis のクラス: Draw the in-ice effective area table by running I3ParticleFlux.getInIceEffectiveArea(double logEnergy, double cosZenith, int flavor, int doublet).
DrawInIceEffArea() - クラスのコンストラクタiceCube.uhe.analysis.DrawInIceEffArea
DrawIntegralNeutrinoFlux - iceCube.uhe.neutrinoModel のクラス
DrawIntegralNeutrinoFlux() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawIntegralNeutrinoFlux
DrawInteractionsBase - iceCube.uhe.interactions のクラス: Draw the total cross section and the energy loss("beta term") by reading the pre-calculated and serialized IntertactionMatrix object stored in the file.
DrawInteractionsBase() - クラスのコンストラクタiceCube.uhe.interactions.DrawInteractionsBase
DrawInteractionsMtx - iceCube.uhe.interactions のクラス: Draw the total cross section and the energy loss("beta term") by reading the pre-calculated and serialized IntertactionMatrix object stored in the file.
DrawInteractionsMtx() - クラスのコンストラクタiceCube.uhe.interactions.DrawInteractionsMtx
DrawIonization - iceCube.uhe.interactions のクラス
DrawIonization() - クラスのコンストラクタiceCube.uhe.interactions.DrawIonization
DrawMillipedeEnergyProbability - iceCube.uhe.analysis のクラス
DrawMillipedeEnergyProbability() - クラスのコンストラクタiceCube.uhe.analysis.DrawMillipedeEnergyProbability
DrawNeutrinoFlux - iceCube.uhe.neutrinoModel のクラス
DrawNeutrinoFlux() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawNeutrinoFlux
DrawNeutrinoFluxFunction - iceCube.uhe.neutrinoModel のクラス
DrawNeutrinoFluxFunction() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawNeutrinoFluxFunction
DrawNeutrinoFluxIntegral - iceCube.uhe.neutrinoModel のクラス
DrawNeutrinoFluxIntegral() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawNeutrinoFluxIntegral
DrawNeutrinoFluxRatio - iceCube.uhe.neutrinoModel のクラス
DrawNeutrinoFluxRatio() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawNeutrinoFluxRatio
DrawNeutrinoFluxwzOsci - iceCube.uhe.neutrinoModel のクラス
DrawNeutrinoFluxwzOsci() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawNeutrinoFluxwzOsci
DrawNeutrinoFluxYield - iceCube.uhe.neutrinoModel のクラス
DrawNeutrinoFluxYield() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawNeutrinoFluxYield
drawNpeDistributionOnXfig() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Draw Npe distribution with slices of cos(zenith) with its bin width
drawNpeDistributionWithNDOMsliceOnXfig() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Draw NPE distribution with slices of NDOM with its bin width
drawNpeDistributionWithSliceOfEnergyOnXfig() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Draw Npe distribution with slices of Log(Energy) with its bin width
DrawNuEffAreaByAreaTable - iceCube.uhe.analysis のクラス: Calculate the neutrino detection effective area [km^2 sr] (neutrino interaction probability convoluted) by running PropagationMatrixFlux with EffAreaTable class.
DrawNuEffAreaByAreaTable() - クラスのコンストラクタiceCube.uhe.analysis.DrawNuEffAreaByAreaTable
DrawNuEffAreaByI3Particle - iceCube.uhe.analysis のクラス: Calculate the neutrino detection effective area [km^2 sr] (neutrino interaction probability convoluted) by running I3ParticleFlux.
DrawNuEffAreaByI3Particle() - クラスのコンストラクタiceCube.uhe.analysis.DrawNuEffAreaByI3Particle
drawOnXfig() - クラスのメソッドiceCube.uhe.propagation.DrawPropagationMatrix: Draw the matrix data by gragig-Xfig
DrawPropagatingAtmMuonBundleFlux - iceCube.uhe.muonModel のクラス
DrawPropagatingAtmMuonBundleFlux() - クラスのコンストラクタiceCube.uhe.muonModel.DrawPropagatingAtmMuonBundleFlux
DrawPropagatingAtmMuonFlux - iceCube.uhe.muonModel のクラス
DrawPropagatingAtmMuonFlux() - クラスのコンストラクタiceCube.uhe.muonModel.DrawPropagatingAtmMuonFlux
DrawPropagatingNeutrinoFlux - iceCube.uhe.neutrinoModel のクラス
DrawPropagatingNeutrinoFlux() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawPropagatingNeutrinoFlux
DrawPropagatingNeutrinoFlux2 - iceCube.uhe.neutrinoModel のクラス
DrawPropagatingNeutrinoFlux2() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawPropagatingNeutrinoFlux2
DrawPropagationMatrix - iceCube.uhe.propagation のクラス: Draw the Prpgatation matrix to calculate the energy distribution and the flux of particles after propagation in the Earth.
DrawPropagationMatrix(int, int, double, double) - クラスのコンストラクタiceCube.uhe.propagation.DrawPropagationMatrix: Constructor
DrawPropagationMatrix(int, int, double, double, int) - クラスのコンストラクタiceCube.uhe.propagation.DrawPropagationMatrix
DrawPropagationMatrixByFactory - iceCube.uhe.propagation のクラス
DrawPropagationMatrixByFactory() - クラスのコンストラクタiceCube.uhe.propagation.DrawPropagationMatrixByFactory
DrawSumFlux - iceCube.uhe.neutrinoModel のクラス
DrawSumFlux() - クラスのコンストラクタiceCube.uhe.neutrinoModel.DrawSumFlux
drawZenithAngleDistributionOnXfig() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Draw cos(zenith) distribution with slices of Npe with its bin width
drawZenithAngleDistributionWithFGsliceOnXfig() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Draw cos(zenith) distribution with slices of First Guess quality with its bin width
DumpQuickNCPropagationMatrixYield - iceCube.uhe.analysis のクラス: Calculate the neutrino detection yield by running ProrpagationMatrixFlux and write it to the standard output.
DumpQuickNCPropagationMatrixYield() - クラスのコンストラクタiceCube.uhe.analysis.DumpQuickNCPropagationMatrixYield
DumpQuickPropagationMatrixYield - iceCube.uhe.analysis のクラス: Calculate the neutrino detection yield by running ProrpagationMatrixFlux and write it to the standard output.
DumpQuickPropagationMatrixYield() - クラスのコンストラクタiceCube.uhe.analysis.DumpQuickPropagationMatrixYield
dX - クラスの変数iceCube.uhe.propagation.PropagationMatrix: Step size of the propagation [g/cm^2].
dXDecay - クラスの変数iceCube.uhe.propagation.PropagationMatrix: Step size of the propagation [g/cm^2] determined by the shortest decay length.

E

E2dFdE - クラスの static 変数iceCube.uhe.event.EventMonoEnergyFlux
E2dFdE - クラスの static 変数iceCube.uhe.event.NeutEventMonoEnergyFlux
EarthCenterCoordinate - geometry のクラス: This class defines the coordinate with its origin located at center of the earth.
EarthCenterCoordinate() - クラスのコンストラクタgeometry.EarthCenterCoordinate: Constructor.
EarthLocalCoordinate - geometry のクラス: This class defines local coordinates in/on the earth.
EarthLocalCoordinate(J3Vector, double) - クラスのコンストラクタgeometry.EarthLocalCoordinate: Constructor.
EarthLocalCoordinate(J3Vector) - クラスのコンストラクタgeometry.EarthLocalCoordinate: Constructor.
EarthLocalCoordinate(J3UnitVector, double) - クラスのコンストラクタgeometry.EarthLocalCoordinate: Constructor.
EarthLocalCoordinate(double, double, double, double) - クラスのコンストラクタgeometry.EarthLocalCoordinate: Constructor.
easting - クラスの static 変数iceCube.uhe.geometry.IceCubeCoordinate: Easting of the origin in the horizontal plane.
ECMB - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
EffAreaTable - iceCube.uhe.analysis のクラス: (In-ice) Effective Area is calculated from the numerical table stored in the classes/iceCube/uhe/analysis.
EffAreaTable(int, int) - クラスのコンストラクタiceCube.uhe.analysis.EffAreaTable: Constructor.
ElbertFluxTableFactory - iceCube.uhe.muonModel のクラス: This class handles the table containing the atmospheric muon flux calculated by PropagatingAtmMuonFlux class PropagatingAtmMuonFlux.getDFMuDLogE(logE,cosZenith) for combinations of alpha and Eth in AtmMuonBundleFlux.
ElbertFluxTableFactory() - クラスのコンストラクタiceCube.uhe.muonModel.ElbertFluxTableFactory: Default constrctor : Reads the table data from all the files tablePath + tableFileName[i].
ElbertFluxTableFactory(String, int) - クラスのコンストラクタiceCube.uhe.muonModel.ElbertFluxTableFactory: This consrtuctor reads the single table data from the fine given in the argument.
ElectronBase - iceCube.uhe.interactions のクラス: An electron once generated by nu-e charged current interaction is subject to immediate electromagnetic cascades.
ElectronBase(Particle) - クラスのコンストラクタiceCube.uhe.interactions.ElectronBase: Constructor
elevation - クラスの static 変数iceCube.uhe.geometry.IceCubeCoordinate: Elevation of the origin from earth ROCK surface (sea level).
elevation - クラスの static 変数iceCube.uhe.geometry.IceCubeGen2Coordinate: Elevation of the origin from earth ROCK surface (sea level).
endRunIC22 - クラスの static 変数iceCube.uhe.analysis.I3ParticleIC22AnalysisFactory
energy_scale - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics
energy_table - クラスの変数iceCube.uhe.interactions.NeutrinoBHevaporation: Energy[GeV] for the sigma_table
energyBinWidth - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
EnergyHistogramMaker - iceCube.uhe.analysis のクラス: This class makes a 2D histogram of Energy correlations like Muon In-ice Energy Vs Primary Cosmic Ray enegry (obtained by AtmMuonBundleFlux.java in the MuonModel package) or Muon In-ice Energy Vs Muon Surface Energy (using PropagationMatrixFactory.java in the propahgation package) Written by S.
EnergyHistogramMaker() - クラスのコンストラクタiceCube.uhe.analysis.EnergyHistogramMaker: Default Constructor
energyRef - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: The reference energy for the optical depth [GeV]
epsilon - クラスの static 変数numRecipes.FeldmanCousins: off set to the BG if BG=0
Event - iceCube.uhe.event のクラス: This class defines the behavior of an event running in the madium (rock/ice).
Event(MonteCarloBase[], Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.event.Event: Constructor.
EventArrayForEachInteraction - iceCube.uhe.event のクラス: This object handles a matrix table generated by RunManager.runEventOnMatrix(DataOutputStream out, int numEvent).
EventArrayForEachInteraction() - クラスのコンストラクタiceCube.uhe.event.EventArrayForEachInteraction: Constructor.
EventArrayForEachInteraction(DataInputStream) - クラスのコンストラクタiceCube.uhe.event.EventArrayForEachInteraction
EventAtmMuonFlux - iceCube.uhe.event のクラス: This class calculates differential flux dF/dLogE [/cm^2 sec sr] of atm muons as a function of emg/hadron cascade energy deposited in the detector volume.
EventAtmMuonFlux() - クラスのコンストラクタiceCube.uhe.event.EventAtmMuonFlux: Constructor.
EventAtmMuonFlux(DataInputStream) - クラスのコンストラクタiceCube.uhe.event.EventAtmMuonFlux: Same as the constructor EventFlux(int model) except it reads the event matrix from the DataInputStream eventIn.
EventFlux - iceCube.uhe.event のクラス: This class calculates differential flux dF/dLogE [/cm^2 sec sr] of muons/taus as a function of emg/hadron cascade energy deposited in the detector volume expected irom a given UHE neutrino model such as GZK.
EventFlux(int) - クラスのコンストラクタiceCube.uhe.event.EventFlux: Constructor.
EventFlux(int, DataInputStream) - クラスのコンストラクタiceCube.uhe.event.EventFlux: Same as the constructor EventFlux(int model) except it reads the event matrix from the DataInputStream eventIn.
eventMatrix - クラスの変数iceCube.uhe.event.EventAtmMuonFlux
eventMatrix - クラスの変数iceCube.uhe.event.EventFlux
EventMatrix - iceCube.uhe.event のクラス: This object handles a matrix table generated by RunManager.runEventOnMatrix(DataOutputStream out, int numEvent).
EventMatrix() - クラスのコンストラクタiceCube.uhe.event.EventMatrix: Constructor.
EventMatrix(DataInputStream) - クラスのコンストラクタiceCube.uhe.event.EventMatrix
eventMatrix - クラスの変数iceCube.uhe.event.EventMonoEnergyFlux
eventMatrix - クラスの変数iceCube.uhe.event.NeutEventMonoEnergyFlux
EventMatrix_single - iceCube.uhe.event のクラス: This object handles a matrix table generated by RunManager.runEventOnMatrix(DataOutputStream out, int numEvent).
EventMatrix_single() - クラスのコンストラクタiceCube.uhe.event.EventMatrix_single: Constructor.
EventMatrix_single(DataInputStream) - クラスのコンストラクタiceCube.uhe.event.EventMatrix_single
EventMonoEnergyFlux - iceCube.uhe.event のクラス: This class calculates differential flux dF/dLogE [/cm^2 sec sr] of muons/taus as a function of emg/hadron cascade energy deposited in the detector volume expected from a neutrino flux with monochromatic energy E^2dF/dE = 10^-9 GeV/cm^2 sec sr.
EventMonoEnergyFlux(DataInputStream) - クラスのコンストラクタiceCube.uhe.event.EventMonoEnergyFlux: Constructor.
EventRate - iceCube.uhe.event のクラス
EventRate() - クラスのコンストラクタiceCube.uhe.event.EventRate
excludedRunIC22 - クラスの static 変数iceCube.uhe.analysis.I3ParticleIC22AnalysisFactory
expMu - クラスの static 変数numRecipes.RandomGenerator

F

FeldmanCousins - numRecipes のクラス: Implementation of the Feldman-Cousins method to calcylate the upper limit at a given C.L.
FeldmanCousins() - クラスのコンストラクタnumRecipes.FeldmanCousins
fillAtmMuonBundleFluxRatioWeight(I3Particle, String, ElbertFluxTableFactory, RelativeElbertFluxTableMaker) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter: This is for the debugging.
fillAtmMuonBundleFluxWeight(I3Particle, ParticlePoint, AtmMuonBundleFlux) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter: Fill I3Particle with the Atmospheric Muon Bundle Flux weights.
fillAtmMuonBundleFluxWeight(I3Particle, ElbertFluxTableFactory) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter: Fill I3Particle with the Atmospheric Muon Bundle Flux weights.
fillAtmMuonBundleFluxWeight(I3Particle, String, RelativeElbertFluxTableMaker) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter
fillCRFluxWeight(I3Particle, PropagatingAtmMuonFlux) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleWeightFiller: Fill the CR energy distribution besed on PropagatingAtmMuonFlux in the muonModel package
fillData(DataInputStream) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Reading a series of (N_i, \mu_i) from the input stream.
fillData() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Reading a series of (N_i, \mu_i) from the standard input by the interactive methof
fillMCPrimarySpectrumWeight(double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleBuilder: decide if you fills the MC spectrum weight with the dN/dLogE of the MC data.
fillNeutrinoWeight(InteractionsMatrix, InteractionsMatrix) - クラスのメソッドiceCube.uhe.analysis.I3ParticleBuilder: You must call this method if the primary is a (interaction-weighted) neutrino.
fillPropagatingAtmMuonFluxWeight(I3Particle, PropagatingAtmMuonFlux, String) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleWeightFiller: Fill the weight besed on PropagatingAtmMuonFlux in the muonModel package
fillPropagatingAtmMuonFluxWeight(I3Particle, CosmicRayFlux, String) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleWeightFiller: Fill the weight besed on CosmicRayFlux in the muonModel package.
fillPropagatingNeutrinoFluxWeight(I3Particle, PropagatingNeutrinoFlux, String) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleWeightFiller: Fill the weight besed on PropagatingNeutrinoFlux in the neutrinoModel package
fillPropagatingNeutrinoFluxWeight(I3Particle, PropagatingNeutrinoFlux, int, String) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleWeightFiller: Fill the weight besed on PropagatingNeutrinoFlux in the neutrinoModel package.
fillPropagationMatrixWeight(I3Particle, PropagationMatrixFactory) - クラスのメソッドiceCube.uhe.analysis.I3ParticlePropMatrixFiller: Fill the propagation matrix with PropagatingMatrixFactory.
filterOutBadRunData - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory: Flag for filtering out the bad run data
finished() - クラスのメソッドiceCube.uhe.event.SwingWorker: Called on the event dispatching thread (not on the worker thread) after the construct method has returned.
FitElbertModelFixedEthWithIC9Data - iceCube.uhe.analysis のクラス: Fit the IC9 data with the Elbert Formula using AtmMuonBundleFetter class.
FitElbertModelFixedEthWithIC9Data() - クラスのコンストラクタiceCube.uhe.analysis.FitElbertModelFixedEthWithIC9Data
FitElbertModelWithIC9Data - iceCube.uhe.analysis のクラス: Fit the IC9 data with the Elbert Formula using AtmMuonBundleFetter class.
FitElbertModelWithIC9Data() - クラスのコンストラクタiceCube.uhe.analysis.FitElbertModelWithIC9Data
fluctuateEventByEvent - クラスの変数iceCube.uhe.muonModel.AtmMuonBundleFlux: Options to calculate flux with/without taking into account fluxcuation of muon energies due to the EAS cascade process true : Flux is calculated such that an event by event flucuation is included.
fluxWeightName - クラスの static 変数iceCube.uhe.analysis.AtmMuonBundleFitter
FmuToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FmuToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FmuToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FmuToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FmuToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FmuToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FmuToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuEToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuEToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuEToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuEToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuEToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuEToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuEToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuMuToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuMuToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuMuToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuMuToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuMuToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuMuToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuMuToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuTauToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuTauToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuTauToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuTauToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuTauToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuTauToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FnuTauToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
fractionOfMuonAndTau - クラスの static 変数iceCube.uhe.interactions.NeutrinoBHevaporation: Fraction of muon + tau's multiplicity in the black hole decay products.
fractionOfShowers - クラスの static 変数iceCube.uhe.interactions.NeutrinoBHevaporation: Fraction of particle multiplicity in the black hole decay products resulting in cascades.
FtauToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FtauToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FtauToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FtauToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FtauToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FtauToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
FtauToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
Function - numRecipes のインタフェース: Interface to get value of a given function in a given class.

G

G_F - クラスの static 変数iceCube.uhe.interactions.GlashowResonanceLeptonic: Fermi Coupling Constant [GeV ^{-2}]
gamma - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: The power law index of the energy spectrum of the photon field
GammaFactor - クラスの static 変数numRecipes.RandomGenerator
gammaP(double, double) - クラスの static メソッドnumRecipes.SpecialFunctions: P(a x)= gamma(a,x)/Gamma(a) from 0 to x.
gammaQ(double, double) - クラスの static メソッドnumRecipes.SpecialFunctions: Q(a x)= Gamma(a,x)/Gamma(a) from 0 to x.
gammaW - クラスの static 変数iceCube.uhe.interactions.GlashowResonanceLeptonic: decay width of W [GeV]
gauss(double, double, double) - クラスの static メソッドnumRecipes.SpecialFunctions: Gaussian function
gen2easting - クラスの static 変数iceCube.uhe.geometry.IceCubeGen2Coordinate: Easting of the origin in the horizontal plane.
gen2northing - クラスの static 変数iceCube.uhe.geometry.IceCubeGen2Coordinate: Nothing of the origin in the horizontal plane.
generate() - クラスのメソッドiceCube.uhe.event.JulietTask: start the task to generate a particle.
generateI3Particle(int, int, double, double, J3Line, int, double, double, double, int, int, int) - クラスのメソッドiceCube.uhe.analysis.I3ParticleBuilder: Generate I3Particle from a set of the given valuables.
generateI3Particle(int, int, double, double, double, double, J3Line, J3Line, int, double, double, double, int, int, int) - クラスのメソッドiceCube.uhe.analysis.I3ParticleBuilder: Generate I3Particle from a set of the given valuables.
generateI3Particle(int, int, double, double, J3Line, int, double, J3Vector, J3Vector, double, double, double, int, int, int) - クラスのメソッドiceCube.uhe.analysis.I3ParticleMillipedeBuilder: Generate I3Particle from a set of the given valuables.
generateI3Particle(int, int, double, double, double, J3Line, J3Line, int, double, J3Vector, J3Vector, double, double, double, int, int, int) - クラスのメソッドiceCube.uhe.analysis.I3ParticleMillipedeBuilder: Generate I3Particle from a set of the given valuables.
generateLogEnergyMatrix() - クラスのメソッドiceCube.uhe.particles.Particle
generateNeutrinoFluxObject(int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Generate Neutrino flux object and add it to the list
generator - クラスの変数iceCube.uhe.event.JulietTask: JULIeTGenerator.
geometry - パッケージ geometry: Package geometry This package provides classes to handle geometrical calculation including 3D vector operations.
get() - クラスのメソッドiceCube.uhe.event.SwingWorker: Return the value created by the construct method.
getAlpha() - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Get the alpha parameter
getAlpha() - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Return the alpha value set by setElbertParameters
getAlpha(double) - クラスのメソッドiceCube.uhe.muonModel.RelativeElbertFluxTableMaker
getAngleInDegree(J3Vector, J3Vector) - クラスの static メソッドgeometry.J3Vector: calculate the angle [deg] between two vectors.
getAngleInRadian(J3Vector, J3Vector) - クラスの static メソッドgeometry.J3Vector: calculate the angle [rad] between two vectors.
getArea(double, double) - クラスのメソッドiceCube.uhe.analysis.EffAreaTable: Return the effective area of the primary inIce particle [cm^2].
getArea(int, double) - クラスのメソッドiceCube.uhe.analysis.NeutrinoEffAreaTable: Return the effective area of the primary inIce particle [cm^2].
getAsymmetryTerm(double, double, int) - クラスのメソッドiceCube.uhe.interactions.PairCreation: Calculate the term on the asymmetry factor of the pair creation.
getAtmosphericMuonFlux(String) - クラスのメソッドiceCube.uhe.particles.I3Particle: Return the Atmospheric Muon flux dF/dLogE [/cm^2 sec sr] stored by String "fluxName".
getAtomicNumber(int) - クラスのメソッドiceCube.uhe.points.ParticlePoint: Atomic-number is acquired for a given Material Number and a given species index of atom.
getAverageMuonEnergyLossAfterPropagation() - クラスのメソッドiceCube.uhe.muonModel.PropagatingAtmMuonFlux: Calculate and return the averaged relative energy loss of a muon after its propagation in the Earth.
getAverageMuonEnergyLossAfterPropagation(double) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrixFactory: Return average Epropagated/Eincoming of propagating muon with Energy logEnergy [GeV]
getAverageUpperLimit(double) - クラスの static メソッドnumRecipes.FeldmanCousins: Calculate average upper limit of signals for expected background of nBackground.
getAxisLength() - クラスのメソッドgeometry.J3Line: return the current axis length l
getAxisLength() - クラスのメソッドiceCube.uhe.points.ParticlePoint
getAzimuthInPolar(J3Vector) - クラスのメソッドgeometry.Coordinate: Convert Cartesian to Poler coordinate system.
getBestNpe() - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
getBeta(double) - クラスの static メソッドiceCube.uhe.interactions.CELbeta
getCascadeEmgEnergy() - クラスのメソッドiceCube.uhe.event.Event
getCascadeFlux(int, double) - クラスのメソッドiceCube.uhe.event.EventArrayForEachInteraction: Obtain dN/dLogE
getCascadeHadronEnergy() - クラスのメソッドiceCube.uhe.event.Event
getCascadeTotalEnergy() - クラスのメソッドiceCube.uhe.event.Event
getCharge(int) - クラスのメソッドiceCube.uhe.points.ParticlePoint: Charge-number is acquired for a given Material Number and a given species index of atom.
getChargeFactor(double, int) - クラスのメソッドiceCube.uhe.interactions.Bremsstrahlung: Calculate the term which depends on the charge of the propation medium
getConfidenceLevel() - クラスの static メソッドnumRecipes.FeldmanCousins
getCosineOfZenithAngleAtAtmosphericMuonHeight(double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate the zenith angle at the muon production height up in the atmosphere.
getCosineOfZenithAngleAtEarthSurface(double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate the zenith angle at the earth surface.
getCRDFDE(double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
getCRDFDE(double, double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
getCREnergyReference() - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
getCrossProduct(J3Vector, J3Vector) - クラスの static メソッドgeometry.J3Vector: calculate the cross Products axb
getCumulativeProbability(double, double) - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get Cumulative Probability on a given log(Primary Energy [GeV]), log(Produced Energy [GeV]) double logPrimaryEnergy : Log (Input Primary Energy [GeV]) double logPproducedEnergy : Log (Produced Energy [GeV] via this interaction)
getCurrent() - クラスのメソッドiceCube.uhe.event.JulietTask: Called from ProgressBarDemo to find out how much has been done.
getDecayMode() - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Get the decay mode (0:tau to electron, 1:tau to mu, 2:tau to hadron)
getDEDX() - クラスのメソッドiceCube.uhe.interactions.Ionization: dE/dX - A modified Bethe-Bloch formula [GeV/g/cm^2]
getDefaultCylinderHeight() - クラスの static メソッドiceCube.uhe.geometry.InjectionGeometryUtils
getDefaultCylinderRadius() - クラスの static メソッドiceCube.uhe.geometry.InjectionGeometryUtils
getDeltaLogEnergy() - クラスの static メソッドiceCube.uhe.particles.Particle
getDepositEnergyProbability(I3Particle, double) - クラスの static メソッドiceCube.uhe.analysis.RunJulietMillipede: Calculate the deposited energy probability.
getDF(int, double, int, int, double) - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: Returns dF/dLogE * deltaLogE (inputNeutrino ---> outputParticle) calculated by th method propagateNeutrino().
getDF(Particle, Particle) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrixFactory: Returns dF/dLogE*deltaLogE (inputParticle ---> outputParticle).
getDF(int, int, double, int, int, double) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrixFactory: Returns dF/dLogE * deltaLogE (inputParticle ---> outputParticle).
getDFDE(double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: return the differential flux dF/dE [/cm^2 sec sr GeV] for the emission density per co-moving volume (1+z)^m upto zMax.
getDFDE(double, double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: return the differential flux dF/dE [/cm^2 sec sr GeV] for the emission density per co-moving volume (1+z)^m upto zConst and no evolution above upto zMax.
getDFDE(double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunction
getDFDE(double, double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunction
getDFDE(double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics
getDFDE(double, double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics
getDFDLogCREDLogE(double, double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate d^2F/dLogEcrdLogEmuon [/cm^2 sec sr] as a function of cosmic ray energy and muon (bundle) energy at the earth surface.
getDFDLogE(double, double, boolean) - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Calculate the Neutrino flux at the surface to give numberOfEvents you set in the argument.
getDFDLogE(double, double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Calculate the Neutrino flux at the surface to give numberOfEvents you set in the argument.
getDFDLogE(double, double, double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Calculate the Neutrino flux at the surface to give numberOfEvents, but the yield [cm^2 sec sr] given in the argument is added up to calculate the flux.
getDFDLogE(double, double, boolean) - クラスのメソッドiceCube.uhe.analysis.PropagationMatrixFlux: Calculate the Neutrino flux at the surface to give numberOfEvents you set in the argument.
getDFDLogE(double, double) - クラスのメソッドiceCube.uhe.analysis.PropagationMatrixFlux: Calculate the Neutrino flux at the surface to give numberOfEvents you set in the argument.
getDFDLogE(double, double, double) - クラスのメソッドiceCube.uhe.analysis.PropagationMatrixFlux: Calculate the Neutrino flux at the surface to give numberOfEvents, but the yield [cm^2 sec sr] given in the argument is added up to calculate the flux.
getDFDLogE(double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate dF/dLogE [/cm^2 sec sr] at the earth surface as a function of log E [GeV] and cosine of zenith angle
getDFDLogE(double, double, double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate in-ice dF/dLogE [/cm^2 sec sr] at the slant depth x [g/cm^2] as a function of log E [GeV] in ice and cosine of zenith angle.
getDFDLogE(double, double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate in-ice dF/dLogE [/cm^2 sec sr] at the slant depth x [g/cm^2] as a function of log E [GeV] in ice and cosine of zenith angle.
getDFDLogE(double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonFlux: calculate the log differential Flux dF/dLogE [/cm^2 sec sr] logEnergy [GeV] cos(Zenith Angle)
getDFDLogE(double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonFluxCorsika: calculate the log differential Flux dF/dLogE [/cm^2 sec sr] logEnergy [GeV] cos(Zenith Angle)
getDFDLogE(double) - クラスのメソッドiceCube.uhe.muonModel.CosmicRayFlux: calculate the log differential Flux dF/dLogE [/cm^2 sec sr] logEnergy [GeV]
getDFDLogE(double, double) - クラスのメソッドiceCube.uhe.muonModel.CosmicRayFlux: calculate the log differential Flux dF/dLogE [/cm^2 sec sr] logEnergy [GeV] cos(zenith angle) This method is indentical to getDFDLogE(double logEnergy) because the cosmic ray flux is isotropic.
getDFDLogE(double, int) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: calculate the log differential Flux dF/dLogE [/cm^2 sec sr] logEnergy [GeV] particleID 1 nu-e 2 nu-mu 3 nu-tau (No nu-tau in the GZK model)
getDFDLogEwzOsci(double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Calculate the log differential Flux dF/dLogE [/cm^2 sec sr] after the propagation in the universe (with taking into account the neutrino oscillation) input: logEnergy [GeV] output: neutrino fluxes after neutrino oscillation (0: nu_e, 1:nu_mu, 2:nu_tau)
getDFDLogEwzOsci(double, int) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Calculate the log differential Flux dF/dLogE [/cm^2 sec sr] after the propagation in the universe (with taking into account the neutrino oscillation) Calculation is based on a paper of J.
getDFEmgCascadeDLogE(double, double) - クラスのメソッドiceCube.uhe.event.EventAtmMuonFlux: Calculate dF/dLogE [/cm^2 sec sr] for EMG cascade
getDFEmgCascadeDLogE(double) - クラスのメソッドiceCube.uhe.event.EventFlux: Calculate dF/dLogE [/cm^2 sec sr] for EMG cascade
getDFEmgCascadeDLogE(int, double, double) - クラスのメソッドiceCube.uhe.event.EventMonoEnergyFlux: Calculate dF/dLogE [/cm^2 sec sr] for EMG cascade neutrnoFlavor is defined by the Particle class. i.e. 0 for nu-e 1 for nu-mu etc.
getDFEmgCascadeDLogE(int, double, double) - クラスのメソッドiceCube.uhe.event.NeutEventMonoEnergyFlux: Calculate dF/dLogE [/cm^2 sec sr] for EMG cascade neutrnoFlavor is defined by the Particle class. i.e. 0 for nu-e 1 for nu-mu etc.
getDFHadronCascadeDLogE(double, double) - クラスのメソッドiceCube.uhe.event.EventAtmMuonFlux: Calculate dF/dLogE [/cm^2 sec sr] for Hadron cascade
getDFHadronCascadeDLogE(double) - クラスのメソッドiceCube.uhe.event.EventFlux: Calculate dF/dLogE [/cm^2 sec sr] for Hadron cascade
getDFHadronCascadeDLogE(int, double, double) - クラスのメソッドiceCube.uhe.event.EventMonoEnergyFlux: Calculate dF/dLogE [/cm^2 sec sr] for Hadron cascade neutrnoFlavor is defined by the Particle class. i.e. 0 for nu-e 1 for nu-mu etc.
getDFHadronCascadeDLogE(int, double, double) - クラスのメソッドiceCube.uhe.event.NeutEventMonoEnergyFlux: Calculate dF/dLogE [/cm^2 sec sr] for Hadron cascade neutrnoFlavor is defined by the Particle class. i.e. 0 for nu-e 1 for nu-mu etc.
getDFMuDLogCREDLogE(double, double, double, double) - クラスのメソッドiceCube.uhe.muonModel.PropagatingAtmMuonFlux: Calculate dF^2/dLogEcrDLogE [/cm^2 sec sr] for nu-mu Because the cosmic ray follows the rapidly falling spectrum, the flux is averaged over a given log(cosmic ray energy [GeV]) in a half width given by halfWidthOfLogE.
getDFMuDLogE(int, int, double, double) - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Returns dFMu/dLogE for given indexes of alpha, muEth, distance, logEmu.
getDFMuDLogE(double, double, double, double) - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Returns dFMu/dLogE for given alpha, muEth, distance, logEmu.
getDFMuDLogE(double, double) - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Returns dFMu/dLogE for given indexes of distance, logEmu.
getDFMuDLogE(double, double) - クラスのメソッドiceCube.uhe.muonModel.PropagatingAtmMuonFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-mu
getDFMuDLogE(double) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for mu The neutrino flux is calculated for the model you specified in calling the constructor.
getDFMuDLogE(int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for mu The neutrino flux is calculated for the model you specified in calling the constructor.
getDFMuDLogE(int, double) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for mu The neutrino flux is calculated for the model you specified in the argument.
getDFMuDLogE(int, int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for mu The neutrino flux is calculated for the model you specified in the argument.
getDFMuDLogE(int, int) - クラスのメソッドiceCube.uhe.neutrinoModel.QuickPropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for mu The neutrino flux is calculated for the model you specified in calling the constructor.
getDFNuEDLogE(double) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-e The neutrino flux is calculated for the model you specified in calling the constructor.
getDFNuEDLogE(int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-e The neutrino flux is calculated for the model you specified in calling the constructor.
getDFNuEDLogE(int, double) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-e The neutrino flux is calculated for the model you specified in the argument.
getDFNuEDLogE(int, int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-e The neutrino flux is calculated for the model you specified in the argument.
getDFNuEDLogE(int, int) - クラスのメソッドiceCube.uhe.neutrinoModel.QuickPropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-e The neutrino flux is calculated for the model you specified in the argument.
getDFNuMuDLogE(double) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-mu The neutrino flux is calculated for the model you specified in calling the constructor.
getDFNuMuDLogE(int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-mu The neutrino flux is calculated for the model you specified in calling the constructor.
getDFNuMuDLogE(int, double) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-mu The neutrino flux is calculated for the model you specified in the argument.
getDFNuMuDLogE(int, int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-mu The neutrino flux is calculated for the model you specified in the argument.
getDFNuMuDLogE(int, int) - クラスのメソッドiceCube.uhe.neutrinoModel.QuickPropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-mu The neutrino flux is calculated for the model you specified in the argument.
getDFNuTauDLogE(double) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-tau The neutrino flux is calculated for the model you specified in calling the constructor.
getDFNuTauDLogE(int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-tau The neutrino flux is calculated for the model you specified in calling the constructor.
getDFNuTauDLogE(int, double) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-tau The neutrino flux is calculated for the model you specified in the argument.
getDFNuTauDLogE(int, int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-tau The neutrino flux is calculated for the model you specified in the argument.
getDFNuTauDLogE(int, int) - クラスのメソッドiceCube.uhe.neutrinoModel.QuickPropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for nu-tau The neutrino flux is calculated for the model you specified in calling the constructor.
getDFTauDLogE(double) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for tau The neutrino flux is calculated for the model you specified in calling the constructor.
getDFTauDLogE(int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for tau The neutrino flux is calculated for the model you specified in calling the constructor.
getDFTauDLogE(int, double) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for tau The neutrino flux is calculated for the model you specified in the argument.
getDFTauDLogE(int, int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for tau The neutrino flux is calculated for the model you specified in the argument.
getDFTauDLogE(int, int) - クラスのメソッドiceCube.uhe.neutrinoModel.QuickPropagatingNeutrinoFlux: Calculate dF/dLogE [/cm^2 sec sr] for tau The neutrino flux is calculated for the model you specified in the argument.
getDFTotalCascadeDLogE(double, double) - クラスのメソッドiceCube.uhe.event.EventAtmMuonFlux: Calculate dF/dLogE [/cm^2 sec sr] for total cascade
getDFTotalCascadeDLogE(double) - クラスのメソッドiceCube.uhe.event.EventFlux: Calculate dF/dLogE [/cm^2 sec sr] for total cascade
getDFTotalCascadeDLogE(int, double, double) - クラスのメソッドiceCube.uhe.event.EventMonoEnergyFlux: Calculate dF/dLogE [/cm^2 sec sr] for total cascade neutrnoFlavor is defined by the Particle class. i.e. 0 for nu-e 1 for nu-mu etc.
getDFTotalCascadeDLogE(int, double, double) - クラスのメソッドiceCube.uhe.event.NeutEventMonoEnergyFlux: Calculate dF/dLogE [/cm^2 sec sr] for total cascade neutrnoFlavor is defined by the Particle class. i.e. 0 for nu-e 1 for nu-mu etc.
getDimensionOfLogEnergyMatrix() - クラスの static メソッドiceCube.uhe.particles.Particle
getDirection() - クラスのメソッドgeometry.J3Line: return the current direction
getDirectionInEarthCenterCoordinate() - クラスのメソッドiceCube.uhe.particles.I3Particle: Returns the unit vector of the axis direction in the Earth Center coordinate
getDirectionInIceCubeCoordinate() - クラスのメソッドiceCube.uhe.particles.I3Particle: Returns the unit vector of the axis direction in the IceCube coordinate
getDistance(double) - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunction
getDistanceFromEarthSurfaceToIceCube() - クラスのメソッドiceCube.uhe.particles.I3Particle: Get the distance from the Earth Surface that this particle has propagated before reching to the IceCube volume
getDistanceFromLineToPoint(J3Line, J3Vector) - クラスの static メソッドgeometry.J3Utility: returns distance between a line and a point
getDistanceOfStartLocation(double, double, double) - クラスの static メソッドiceCube.uhe.geometry.InjectionGeometryUtils: Calculate the distance of the injection location from the IceCube-gen2 center.
getDistanceOfStartLocation(double) - クラスの static メソッドiceCube.uhe.geometry.InjectionGeometryUtils: Calculate the distance of the injection location from the IceCube-gen2 center.
getDNDLogE(double, double, double, double) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Calculate the MC Primary Spectrum dN/dLogE except normalization constatnt determined by the total numner of MC events.
getDNDyDX(double) - クラスのメソッドiceCube.uhe.interactions.Ionization: the ionization y distribution
getDotProduct(J3Vector, J3Vector) - クラスの static メソッドgeometry.J3Vector: calculate the dot-product
getDoublet() - クラスのメソッドiceCube.uhe.interactions.InteractionsMatrix: Get the doublet of the particle propagating
getDoublet() - クラスのメソッドiceCube.uhe.particles.Particle
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.Bremsstrahlung: Differential cross section dsigma/dy [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceHadronic: return dSigma/dy [cm^2] where y = 1 - - E_{l^{-1}}/E_{\bar{\nu_e}}
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic: return dSigma/dy [cm^2] where y = 1 - - E_{l^{-1}}/E_{\bar{\nu_e}}
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.Ionization: Differential Cross section.
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.KnockOnElectrons: Differential cross section dsigma/dy [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Differential cross section dsigma/dy [cm^2] y = 1-Erecoiling/Eincoming = Eshower/Eneutrino The y distribution is a flat distribution in this model.
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoCharge: Differential cross section dsigma/dy [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoChargeZeusPDF: Differential cross section dsigma/dy [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutral: Differential cross section dsigma/dy [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutralZeusPDF: Differential cross section dsigma/dy [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.PairCreation: Differential cross section dsigma/dy [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.PairCreationFit: Differential cross section dsigma/dy [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.PhotoNuclear: Differential cross section dsigma/dy [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter
getDSigmaDy(double) - クラスのメソッドiceCube.uhe.interactions.PhotoNuclearFit: Differential cross section dsigma/dy [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter
getDSigmaDyDrho(double, double) - クラスのメソッドiceCube.uhe.interactions.PairCreation: Differential cross section dsigma/dy/drho [cm^2] y = 1 - Erecoiling/Eincoming -- inelasticity parameter The assymetry factor is defined by rho = (E^+ - E^-)/(E^+ + E^-)
getDSigmaDyPlus(double) - クラスのメソッドiceCube.uhe.interactions.PairCreation: Differential cross section dsigma/dy [cm^2] yPlus = Epositron/Eincoming
getDSigmaDz(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Differential cross section dsigma/dz [cm^2] z = Erecoiling/Eincoming = Emuon or Etau/Eneutrino The z distribution is a flat distribution in this model.
getEffectiveEnergyOfCRs(double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate the effective energy [GeV] of the parent cosmic ray for a given energy of the EHE muon bundle and its zenith angle at the IceCube depth.
getEffectiveEnergyOfCRs(double, double, double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate the effective energy [GeV] of the parent cosmic ray for a given IN-ICE energy of the EHE muon bundle and its zenith angle at the IceCube depth.
getEFlux(double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate energy flux E^2 dF/dE [GeV/cm^2 sec sr]
getEFlux(double, double, double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate energy flux E^2 dF/dE [GeV/cm^2 sec sr] at the slant depth x [g/cm^2].
getEFlux(double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonFlux: calculate the differential Energy Flux [GeV /cm^2 sec sr] logEnergy [GeV] cos(Zenith Angle) E^2dF/dE ~ E^(-1.7) is assumed for extrapolation to UHE.
getEFlux(double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonFluxCorsika: calculate the differential Energy Flux [GeV /cm^2 sec sr] logEnergy [GeV] cos(Zenith Angle) E^2dF/dE ~ E^(-2.002) is assumed for extrapolation to UHE
getEFlux(double) - クラスのメソッドiceCube.uhe.muonModel.CosmicRayFlux: calculate the differential Energy Flux [GeV /cm^2 sec sr] logEnergy [GeV]
getEFlux(double, double) - クラスのメソッドiceCube.uhe.muonModel.CosmicRayFlux: calculate the differential Energy Flux [GeV /cm^2 sec sr] logEnergy [GeV] cos(zenith angle) This method is indentical to getEFlux(double logEnergy) because the cosmic ray flux is isotropic.
getEflux() - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Get the normalization E^2dF/dE [GeV/cm2 sec sr] for the power law model (model ID 24)
getEFlux(double, int) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: calculate the differential Energy Flux [GeV /cm^2 sec sr] logEnergy [GeV] particleID 1 nu-e 2 nu-mu 3 nu-tau (No nu-tau in the GZK model)
getEFluxwzOsci(double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Calculate the differential Energy Flux [GeV /cm^2 sec sr] after the propagation in the universe (with taking into account the neutrino oscillation) input: logEnergy [GeV] output: neutrino fluxes after neutrino oscillation (0: nu_e, 1:nu_mu, 2:nu_tau)
getEFluxwzOsci(double, int) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Calculate the differential Energy Flux [GeV /cm^2 sec sr] after the propagation in the universe (with taking into account the neutrino oscillation) input: logEnergy [GeV] particleID 1 nu-e 2 nu-mu 3 nu-tau (No nu-tau in the GZK model)
getEmgCascadeFlux(double, double) - クラスのメソッドiceCube.uhe.event.EventMatrix: Obtain dN/dLogE for electroMagnetic cascades
getEmgCascadeFlux(double, double) - クラスのメソッドiceCube.uhe.event.EventMatrix_single: Obtain dN/dLogE for electroMagnetic cascades
getEnergy() - クラスのメソッドiceCube.uhe.particles.Particle
getEnergyBase() - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Set the base energy [GeV] to define normalization E^2dF/dE [GeV/cm2 sec sr] for the power law model (model ID 24)
getEnergyLossAlongTheTrack(JulietEventGenerator, J3Vector, J3Vector) - クラスの static メソッドiceCube.uhe.analysis.RunJulietMillipede: Calculate the total amount of the energy loss along the juliet track [startVertex endVertex].
getErrorInPolynominalInterpolate() - クラスの static メソッドnumRecipes.Interpolation
getEventNumber() - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
getEx() - クラスのメソッドgeometry.Coordinate: Get x axis direction.
getExposure(int, double) - クラスのメソッドiceCube.uhe.analysis.NeutrinoExposureTable: Return the exposure of the primary inIce particle [cm^2 src sr].
getExposure(int, double) - クラスのメソッドiceCube.uhe.analysis.NeutrinoExposureTableHESE: Return the exposure of the primary inIce particle [cm^2 src sr].
getEy() - クラスのメソッドgeometry.Coordinate: Get y axis direction.
getEz() - クラスのメソッドgeometry.Coordinate: Get z axis direction.
getFirstGuessQuality() - クラスのメソッドiceCube.uhe.particles.I3Particle: Returns the First Guess fit quality parameter such as the velocity
getFlavor() - クラスのメソッドiceCube.uhe.interactions.InteractionsMatrix: Get the flavor of the particle propagating
getFlavor() - クラスのメソッドiceCube.uhe.particles.Particle
getFlavorByInteractionsInPlay() - クラスのメソッドiceCube.uhe.event.Event: Get the produced particle's Flavor
getFluctuatedRelativeFlux(double, double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Calculate the net fluctuation of the flux due to the cascade process.
getFluxwzOsci(double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Calculate the neutrino flux at the earth surface after propgation in space with neutrino oscillation.
getFmuToE(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Muon with energy iLogE to Electron with energy jLogE
getFmuToHadron(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Muon with energy iLogE to Hadron with energy jLogE
getFmuToMu(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Muon with energy iLogE to Muon with energy jLogE
getFmuToNuE(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Muon with energy iLogE to nuE with energy jLogE
getFmuToNuMu(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Muon with energy iLogE to nuMu with energy jLogE
getFmuToNuTau(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Muon with energy iLogE to nuTau with energy jLogE
getFmuToTau(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Muon with energy iLogE to Tau with energy jLogE
getFnuEToE(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuE with energy iLogE to Electron with energy jLogE
getFnuEToHadron(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuE with energy iLogE to Hadron with energy jLogE
getFnuEToMu(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuE with energy iLogE to Muon with energy jLogE
getFnuEToNuE(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuE with energy iLogE to nuE with energy jLogE
getFnuEToNuMu(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuE with energy iLogE to nuMu with energy jLogE
getFnuEToNuTau(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuE with energy iLogE to nuTau with energy jLogE
getFnuEToTau(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuE with energy iLogE to Tau with energy jLogE
getFnuMuToE(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuMu with energy iLogE to Electron with energy jLogE
getFnuMuToHadron(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuMu with energy iLogE to Hadron with energy jLogE
getFnuMuToMu(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuMu with energy iLogE to Muon with energy jLogE
getFnuMuToNuE(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuMu with energy iLogE to nuE with energy jLogE
getFnuMuToNuMu(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuMu with energy iLogE to nuMu with energy jLogE
getFnuMuToNuTau(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuMu with energy iLogE to nuTau with energy jLogE
getFnuMuToTau(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuMu with energy iLogE to Tau with energy jLogE
getFnuTauToE(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuTau with energy iLogE to Electron with energy jLogE
getFnuTauToHadron(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuTau with energy iLogE to Hadron with energy jLogE
getFnuTauToMu(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuTau with energy iLogE to Muon with energy jLogE
getFnuTauToNuE(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuTau with energy iLogE to nuE with energy jLogE
getFnuTauToNuMu(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuTau with energy iLogE to nuMu with energy jLogE
getFnuTauToNuTau(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuTau with energy iLogE to nuTau with energy jLogE
getFnuTauToTau(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from nuTau with energy iLogE to Tau with energy jLogE
getFtauToE(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Tauon with energy iLogE to Electron with energy jLogE
getFtauToHadron(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Tauon with energy iLogE to Hadron with energy jLogE
getFtauToMu(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Tauon with energy iLogE to Muon with energy jLogE
getFtauToNuE(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Tauon with energy iLogE to nuE with energy jLogE
getFtauToNuMu(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Tauon with energy iLogE to nuMu with energy jLogE
getFtauToNuTau(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Tauon with energy iLogE to nuTau with energy jLogE
getFtauToTau(int, int) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Get the propagation matrix element from Tauon with energy iLogE to Tau with energy jLogE
getFunction(int, double[], double) - クラスのメソッドiceCube.uhe.interactions.Ionization: Method for interface .
getFunction(int, double[], double) - クラスのメソッドiceCube.uhe.interactions.PairCreation: Override Method for interface .
getFunction(int, double[], double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Implementation of interface numRecipes.Function used for numerical integration of the probability of (E_muon/E0)/ Bar(E_muon/E0) multiplied by CosmicRayFlux (Energy x R) int functionIndex : 1 calculation with inice muon, 2 with the surface double x = R = (E_muon/E0)/ Bar(E_muon/E0) functionIndex =3 then x = logCosmicRayEnergy parameter[0] : log10(primary Cosmic Ray Energy [GeV]) to be responsible for the muon bundle in AVERAGE i.e.
getFunction(int, double[], double) - クラスのメソッドiceCube.uhe.muonModel.PropagatingAtmMuonFlux: Implementation of interface numRecipes.Function used for numerical integration of the d^F/dLogEcrDlogEmu over logEcr, the cosmic ray energy.
getFunction(int, double[], double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Interface to Integration class.
getFunction(int, double[], double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
getFunction(int, double[], double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunction
getFunction(int, double[], double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics
getFunction(int, double[], double) - インタフェースのメソッドnumRecipes.Function
getFunction(int, double[], double) - クラスのメソッドnumRecipes.SpecialFunctions: Method for interface .
GetGaussianDouble(double, double) - クラスのメソッドnumRecipes.RandomGenerator
getGeometryShift() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Get the geometrical shift in IceCube coordinate
getGeometryShift() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Get the geometrical shift in IceCube Gen2 coordinate
getGlacierDepth() - クラスのメソッドiceCube.uhe.geometry.IceCubeCoordinate: Get the depth of glacier.
getGlacierDepth() - クラスのメソッドiceCube.uhe.geometry.IceCubeGen2Coordinate: Get the depth of glacier.
getGZKCRFlux(double) - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunction: Return the UHECR flux [/cm^2 sec sr] above the GZK cutoff energy
getGZKNeutrinoFlux(String) - クラスのメソッドiceCube.uhe.particles.I3Particle: Return the GZK neutrino flux dF/dLogE [/cm^2 sec sr] stored by String "fluxName".
getHadronCascadeFlux(double, double) - クラスのメソッドiceCube.uhe.event.EventMatrix: Obtain dN/dLogE for Hadron cascades
getHadronCascadeFlux(double, double) - クラスのメソッドiceCube.uhe.event.EventMatrix_single: Obtain dN/dLogE for Hadron cascades
getI3ParticleLite(I3Particle) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: make I3Particle as a temporal dataclass for the analysis.
getIceCubeData() - クラスのメソッドiceCube.uhe.particles.I3Particle: The method to access inner IceCube data class
getIceRockBoundaryRadius() - クラスのメソッドiceCube.uhe.points.ParticlePoint
getInelasticityMatrix(int) - クラスのメソッドiceCube.uhe.interactions.InteractionsMatrix: Get the element of the inelastisity matrix
getInIceEffectiveArea(double, double, int, int) - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Outputs the in-ice effective area(E-inice, cosZenith) determined by events passing the Criteria class.
getInIceRectangleInjectionArea(double, double, double) - クラスの static メソッドiceCube.uhe.geometry.InjectionGeometryUtils: Calculate a rectangle in-ice injection area used in the JULIeT IceCube simulation.
getInIceRectangleInjectionArea(double) - クラスの static メソッドiceCube.uhe.geometry.InjectionGeometryUtils: Calculate a rectangle in-ice injection area used in the JULIeT IceCube simulation.
getInjectionRadius(double, double, double) - クラスの static メソッドiceCube.uhe.geometry.InjectionGeometryUtils: Calculate the radius of circle on which the juliet in-ice particles are injected in the IceCube gen2 simulation.
getInjectionRadius(double) - クラスの static メソッドiceCube.uhe.geometry.InjectionGeometryUtils: Calculate the radius of circle on which the juliet in-ice particles are injected in the IceCube gen2 simulation.
getIntegralIntensityOfMuAndTau(double, String) - クラスのメソッドiceCube.uhe.analysis.BHevapPropagationMatrixFlux: This is a method for debugging.
getIntensityOfMuAndTau(double, int, int) - クラスのメソッドiceCube.uhe.analysis.BHevapPropagationMatrixFlux: calculate the muon and tau fluxes after the propagation in the earth.
getIntensityOfMuAndTau(double, int) - クラスのメソッドiceCube.uhe.analysis.BHevapPropagationMatrixFlux
getInteractionName() - クラスのメソッドiceCube.uhe.decay.MuDecayBase: Get the name of interaction
getInteractionName() - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Get the name of interacion
getInteractionName() - クラスのメソッドiceCube.uhe.event.EventArrayForEachInteraction: Obtain the name of interaction.
getInteractionName() - クラスのメソッドiceCube.uhe.event.MonteCarloBase: Get name of the interaction
getInteractionName() - クラスのメソッドiceCube.uhe.interactions.ElectronBase: Get the name of the interaction
getInteractionName() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get the name of the interaction
getInteractionName() - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get the name of the interaction
getIonizationE() - クラスのメソッドiceCube.uhe.points.ParticlePoint: Ionization Potential [eV]
getKSSignificance(double[], Function, int, double[], double, double, boolean) - クラスの static メソッドnumRecipes.KSTest: calculate the KS significance for a given data array and a user-supplied func describing probability by a model prediction in the range [lowerBound upperBound].
getLatitude(J3Vector) - クラスのメソッドgeometry.EarthCenterCoordinate: Calculate latitude in degree.
getLeastDiscoveryPotential(double, double, double) - クラスの static メソッドiceCube.uhe.analysis.LDPcalculator: Calculate the signal discovery potential for a given set of (nSignal,nBG) at significanceOfDiscovery sigma.
getLeastSignalForDiscovery(double, double) - クラスの static メソッドnumRecipes.FeldmanCousins: Calculate the lower signal numbers that would be discovered by a given confidence level (default: 90%) with significance of nSignificance sigma.
getLength() - クラスのメソッドgeometry.J3Vector: get the vector length
getLengthInPolar(J3Vector) - クラスのメソッドgeometry.Coordinate: Convert Cartesian to Poler coordinate system.
getLengthOfTask() - クラスのメソッドiceCube.uhe.event.JulietTask: find out how much work needs to be done.
getLeptonTransferMatrix(int, int) - クラスのメソッドiceCube.uhe.interactions.InteractionsMatrix: Get the element of the transfter matrix jlogE ~ log10((1-y)*E)
getLifeTime() - クラスのメソッドiceCube.uhe.particles.Particle
getLifeTimeMatrix(int) - クラスのメソッドiceCube.uhe.decay.MuDecayMatrix: get the element of the LifeTime matrix
getLifeTimeMatrix(int) - クラスのメソッドiceCube.uhe.decay.MuDecayYMatrix: get the element of the LifeTime matrix
getLifeTimeMatrix(int) - クラスのメソッドiceCube.uhe.decay.TauDecayMatrix: get the element of the LifeTime matrix
getLifeTimeMatrix(int) - クラスのメソッドiceCube.uhe.decay.TauDecayYMatrix: get the element of the LifeTime matrix
getLikelihood(double) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Calculate the likelihood to the series of (N_i, mu_i*scale_factor).
getLikelihood(double, double, PoissonBinnedLikelihoodCalculator) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Calculate the likelihood to the series of (N_i, bg_mu_i+sig_mu_i*signalFactor).
getLikelihood() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Calculate the likelihood to the series of (N_i, mu_i).
getListedEvents(DataOutputStream) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Method to acquire all the listed variables: the cascade particles, their energies, and their locations which occured along the track.
getListedEvents(DataOutputStream) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Method to acquire all the listed variables: the cascade particles, their energies, and their locations which occured along the track.
getListIterator() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodRatioTest
getLLHRatio(boolean) - クラスのメソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: Scan all the PoissonBinnedLikelihoodCalculators stored in List calSignalSetsList to calculate the LLH.
getllhRatioIterator() - クラスのメソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: return the list iterator to access the list container of the llhRatio data obtained by running replica experiments with the method makeCollectionOfLogLikelihoodRatio()
getllhRatioIterator() - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
getLocationIce3Iterator() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Return location hit iterator which allows an external object to access each location stored in this object
getLocationIce3Iterator() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Return location hit iterator which allows an external object to access each location stored in this object
getLogBestNpe() - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
getLogEmax() - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Return the logEmax[GeV] setted for the power law model (model ID 24)
getLogEnergy() - クラスのメソッドiceCube.uhe.particles.Particle
getLogEnergyFromLogNpe(double) - クラスの static メソッドiceCube.uhe.muonModel.CosmicRayEnergyCalculator
getLogEnergyMatrix(int) - クラスのメソッドiceCube.uhe.particles.Particle
getLogEnergyMinimum() - クラスの static メソッドiceCube.uhe.particles.Particle
getLogEnergyProducedMinimum() - クラスの static メソッドiceCube.uhe.interactions.ElectronBase
getLogEnergyProducedMinimum() - クラスの static メソッドiceCube.uhe.interactions.InteractionsBase
getLogMuOverCREnergy(double, double, boolean) - クラスのメソッドiceCube.uhe.muonModel.CascadeFluctuationFactory: Returns Log((E_muon/E0)/ Bar(E_muon/E0)) for a given confidenceLevel.
getLogMuOverCREnergyMax(double, boolean) - クラスのメソッドiceCube.uhe.muonModel.CascadeFluctuationFactory: Returns maximum of Log((E_muon/E0)/ Bar(E_muon/E0))
getLogMuOverCREnergyMin(double, boolean) - クラスのメソッドiceCube.uhe.muonModel.CascadeFluctuationFactory: Returns minimum of Log((E_muon/E0)/ Bar(E_muon/E0))
getLogNpeATWD() - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
getLogNpeFADC() - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
getLogPoissonProbability(long, double) - クラスの static メソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Calculate -log(Poisson) for a given set of (nObserved,expectedValue).
getLogRecoEnergy() - クラスのメソッドiceCube.uhe.particles.I3Particle: get the energy estimated by a reconstruction program
getLogSigma(double, double, double) - クラスのメソッドiceCube.uhe.analysis.YieldAnalysisFactory: Return the log(neutrino cross section [cm^2]) for a given log10(neutrino energy [GeV]) that yields numEvents with log10(neutrino energy flux [GeV/cm^2 sec sr])
getLogYield(LinkedHashMap, double) - クラスのメソッドiceCube.uhe.analysis.YieldAnalysisFactory: getLogYield for a given log10(cross section [cm^2]) using interplolation of the yield table read in the constructor.
getLongitude(J3Vector) - クラスのメソッドgeometry.EarthCenterCoordinate: Calculate longitude in degree.
getLowerLimit(double, long) - クラスの static メソッドnumRecipes.FeldmanCousins: Calculate lower limit of number of signals for a given observed number, nObserved, in expectation of nBackground and return the result.
getMass() - クラスのメソッドiceCube.uhe.particles.Particle
getMassNumber() - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Get the mass number
getMaterialNumber() - クラスのメソッドiceCube.uhe.points.ParticlePoint
getMatrixFileName(J3UnitVector, double, boolean) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleWeightFiller
getMaxLogLikelihoodRatio(double, boolean) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodRatioFactory: return the maximized log likelihood ratio log(L/L0).
getMaxLogLikelihoodRatio(double, boolean) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodRatioTest: return the maximized log likelihood ratio log(L/L0).
getMaxRangeOfSignalIntervalCalculation() - クラスの static メソッドnumRecipes.FeldmanCousins
getMCPrimarySpectrumWeight() - クラスのメソッドiceCube.uhe.particles.I3Particle: Return the MC primary spectrum weight
getMediumDensity() - クラスのメソッドiceCube.uhe.points.ParticlePoint: Obtain the madium density [g/cm^2]
getMessage() - クラスのメソッドiceCube.uhe.event.JulietTask: Returns the most recent status message, or null if there is no current status message.
getMinRangeOfSignalIntervalCalculation() - クラスの static メソッドnumRecipes.FeldmanCousins
getMinumumTargetPhotonEnergy() - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: return the manimum energy of the target photons [GeV].
getModelNormalizationToMaximizeLikelihood() - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: Return the normalization of the model to maximize the binned poisson pdf.
getModelRejectionFactor(double, double) - クラスの static メソッドiceCube.uhe.analysis.LDPcalculator: Calculate the model rejection factor for a given set of (nSignal,nBG).
getModelToMaximizeLH() - クラスのメソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: Return the PoissonBinnedLikelihoodCalculator to contain the model that maximized the poisson binned likelihood.
getMuETh() - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Return the muETh value set by setElbertParameters
getMultiplicity() - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Multiplicity of the decay products from the black hole evaporation.
getMuonMultiplicity() - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Multiplicity of muons from the black hole evaporation.
getMuonThresholdEnergy() - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Get the threshold energy of muons [GeV]
getMuToEDecayMatrix(int, int) - クラスのメソッドiceCube.uhe.decay.MuDecayMatrix: get the element of the decay matrix of mu-> e
getMuToEDecayMatrix(int) - クラスのメソッドiceCube.uhe.decay.MuDecayYMatrix: get the element of the decay matrix of mu-> e
getMuToNuEDecayMatrix(int, int) - クラスのメソッドiceCube.uhe.decay.MuDecayMatrix: get the element of the decay matrix of mu->nuE
getMuToNuEDecayMatrix(int) - クラスのメソッドiceCube.uhe.decay.MuDecayYMatrix: get the element of the decay matrix of mu->nuE
getMuToNuMuDecayMatrix(int, int) - クラスのメソッドiceCube.uhe.decay.MuDecayMatrix: get the element of the decay matrix of m->nuMu
getMuToNuMuDecayMatrix(int) - クラスのメソッドiceCube.uhe.decay.MuDecayYMatrix: get the element of the decay matrix of m->nuMu
getNDOMsATWD() - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
getNDOMsFADC() - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
getNDOMsLaunch() - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
getNeutrinoFluxFromList(int) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Search for the neutrinoFlux objects stored in the list and return it if exists.
getNeutrinoInteractionWeight() - クラスの static メソッドiceCube.uhe.event.JulietEventGenerator: Get the present neutrino interaction weight in the InteractionBase
getNeutrinoInteractionWeight() - クラスの static メソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Get the present neutrino interaction weight in the InteractionBase
getNeutrinoPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.MuDecayBase: This is a dummy method because this class extends MonteCarloBase.class
getNeutrinoPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.MuDecayBase: This is a dummy method because this class extends MonteCarloBase.class
getNeutrinoPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.TauDecayBase: This is a dummy method because this class extends MonteCarloBase.class
getNeutrinoPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.TauDecayBase: This is a dummy method because this class extends MonteCarloBase.class
getNeutrinoPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.event.MonteCarloBase
getNeutrinoPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.event.MonteCarloBase
getNeutrinoPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.ElectronBase: This is the "dummy" method
getNeutrinoPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.ElectronBase: This is the "dummy" method
getNeutrinoPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get pathlength for neutrino by given logEnergy bin.
getNeutrinoPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get pathlength for neutrino.
getNeutrinoPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get pathlength for neutrino.
getNeutrinoPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get pathlength for neutrino.
getNeutrinoYieldFromAsource(double, double, double, double) - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunction
getNpeATWD() - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
getNpeFADC() - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
getNuisanceNormalizationToMaximizeLikelihood() - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: Return the nuisance normalization of the model to maximize the binned poisson pdf.
getNumberOfAtoms(int) - クラスのメソッドiceCube.uhe.points.ParticlePoint: Number of Atoms is acquired for a given Material Number and a given species index of atom.
getObservedNumber(double, double) - クラスの static メソッドiceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder: return the number of observed events in this bin
getOrigin() - クラスのメソッドgeometry.Coordinate: Get the origin of the coordinate system.
getParticle(int, int, int) - クラスのメソッドiceCube.uhe.particles.ParticleArray
getParticle(int, int) - クラスのメソッドiceCube.uhe.particles.ParticleGroup
getParticleAxis() - クラスのメソッドiceCube.uhe.particles.I3Particle: Return the trajectory of the particle in form of J3Line
getParticleAxisInIceCubeCoordinate(I3Particle) - クラスの static メソッドiceCube.uhe.particles.I3ParticleWrapper
getParticleIterator() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Return the Particle Iterator loping over I3Particles
getParticleIterator() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Return particle hit iterator which allows an external object to access each Particle stored in this object
getParticleIterator() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Return particle hit iterator which allows an external object to access each Particle stored in this object
getParticleLocation() - クラスのメソッドiceCube.uhe.points.ParticlePoint: Obtain the particle location along the trajectory, i.e. lAxis.
getPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.MuDecayBase: Get pathlength by random number.
getPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.MuDecayBase
getPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Get pathlength by random number.
getPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Get pathlength by random number.
getPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.event.MonteCarloBase: Get the pathlength
getPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.event.MonteCarloBase
getPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.ElectronBase: Get pathlength, but this always returns 0.0
getPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.ElectronBase: Get pathlength, but this always returns 0.0
getPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get pathlength by random number.
getPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get pathlength by random number.
getPathLength(int, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get pathlength by random number.
getPathLength(double, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get pathlength by random number.
getPDFwithUncertainBG(double, double, long) - クラスの static メソッドnumRecipes.FeldmanCousins
getPhysicalPathLength(RandomGenerator) - クラスのメソッドiceCube.uhe.event.Event: Calculate the stepsize determined by sampling the interaction points for all the interaction channels registred.
getPointVectorFromLongitudeLatitude(double, double, double) - クラスのメソッドgeometry.EarthCenterCoordinate: Get the point vector in this earth-center coordinate for a given longitude [deg] and latitude [deg].
getPointVectorFromPolarCoordinate(double, double, double) - クラスのメソッドgeometry.Coordinate: get a point vector for a given Poler system.
getPoisonBinnedLikelihoodCalculator(Map) - クラスの static メソッドnumRecipes.PoissonBinnedLHExtracter
GetPoissonian(double) - クラスのメソッドnumRecipes.RandomGenerator
getPoissonLogLikelihoodH0(double) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodRatioFactory: return the binned Poisson likelihood for the null (background-only) hypothesis double scaleFactor: scaleFactor whici is multiplied to mu_bg_i; if set to 1.0, no fudge factor is introduced.
getPoissonLogLikelihoodH1(double) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodRatioFactory: return the binned Poisson likelihood for the alternative (background + signal) hypothesis double scaleFactor: scaleFactor whici is multiplied to mu_bg_i; if set to 1.0, no fudge factor is introduced.
getPowerLawIndex() - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Get the powerlaw index for the power law model (model ID 24)
getPrimaryDoublet() - クラスのメソッドiceCube.uhe.event.EventArrayForEachInteraction: Obtain primarily propagating particle doublet.
getPrimaryFlavor() - クラスのメソッドiceCube.uhe.event.EventArrayForEachInteraction: Obtain primarily propagating particle flavor.
getPrimaryParticleDirectionInEarthCenterCoordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Get of propagating particle direction represented by Earth center coordinate
getPrimaryParticleDirectionInEarthCenterCoordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Get of propagating particle direction represented by Earth center coordinate
getPrimaryParticleDirectionInIceCubeCoordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Get of propagating particle direction represented by IceCube coordinate
getPrimaryParticleDirectionInIceCubeCoordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Get of propagating particle direction represented by IceCube coordinate
getProbability(double, double, boolean) - クラスのメソッドiceCube.uhe.muonModel.CascadeFluctuationFactory: Return the probability of Log10((E_muon/E0)/ Bar(E_muon/E0)), a relative depature from the mean of the energy ratio.
getProducedEnergy(int, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.MuDecayBase: Get produced log energy.
getProducedEnergy(double, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.MuDecayBase: Get produced log energy.
getProducedEnergy(int, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Get produced log energy.
getProducedEnergy(double, RandomGenerator) - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Get produced log energy.
getProducedEnergy(int, RandomGenerator) - クラスのメソッドiceCube.uhe.event.MonteCarloBase: Get the logEnergy of the produced particle
getProducedEnergy(double, RandomGenerator) - クラスのメソッドiceCube.uhe.event.MonteCarloBase
getProducedEnergy(int, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.ElectronBase: Get produced log energy.
getProducedEnergy(double, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.ElectronBase: Get produced log energy.
getProducedEnergy(int, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get produced log energy.
getProducedEnergy(double, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get produced log energy.
getProducedEnergy(int, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get produced log energy.
getProducedEnergy(double, RandomGenerator) - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get produced log energy.
getProducedFlavor() - クラスのメソッドiceCube.uhe.decay.MuDecayBase: Get the flavor of the produced particle
getProducedFlavor() - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Get the flavor of the produced particle
getProducedFlavor() - クラスのメソッドiceCube.uhe.event.MonteCarloBase: Get information of the produced particle
getProducedFlavor() - クラスのメソッドiceCube.uhe.interactions.ElectronBase: Get the flavor of the produced particle
getProducedFlavor() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get the flavor of the produced particle
getProducedFlavor() - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get the flavor of the produced particle
getProducedFlavor() - クラスのメソッドiceCube.uhe.interactions.InteractionsMatrix: Get the flavor of the produced particle
getPropDoublet() - クラスのメソッドiceCube.uhe.decay.MuDecayBase: Get the doublet of the particle propagating
getPropDoublet() - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Get the doublet of the particle propagating
getPropDoublet() - クラスのメソッドiceCube.uhe.event.MonteCarloBase
getPropDoublet() - クラスのメソッドiceCube.uhe.interactions.ElectronBase: Get the doublet of the particle propagating
getPropDoublet() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get the doublet of the particle propagateing
getPropDoublet() - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get the doublet of the particle propagateing
getPropFlavor() - クラスのメソッドiceCube.uhe.decay.MuDecayBase: Get the flavor of the particle propagating
getPropFlavor() - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Get the flavor of the particle propagating
getPropFlavor() - クラスのメソッドiceCube.uhe.event.EventMatrix: obtain primarily propagating particle flavor to initiate cascades.
getPropFlavor() - クラスのメソッドiceCube.uhe.event.EventMatrix_single: obtain primarily propagating particle flavor to initiate cascades.
getPropFlavor() - クラスのメソッドiceCube.uhe.event.MonteCarloBase: Get information of the particle propagating
getPropFlavor() - クラスのメソッドiceCube.uhe.interactions.ElectronBase: Get the flavor of the particle propagating
getPropFlavor() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get the flavor of the particle propagateing
getPropFlavor() - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get the flavor of the particle propagateing
getPvalue(double, int) - クラスのメソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: Calculate the p-value of the model parameters of calSignal.
getPvalue(double) - クラスのメソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: Calculate the p-value of the model parameters of calSignal.
getPvalue(double, double) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Calculate the p-value of the experiment to yield the series of bins (N_obs, \mu_i).
getPvalue() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Calculate the p-value of the experiment to yield the series of bins (N_obs, \mu_i) with the default_precision.
getPvalue(double, double, double) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodRatioTest: calculate the p-value for a given log-likelihood ratio (llh) value.
getR0() - クラスのメソッドgeometry.J3Line: return the current passing point
getR0InEarthCenterCoordinate() - クラスのメソッドiceCube.uhe.particles.I3Particle: Returns the axis location (possibly, center of brightness) in the IceCube coordinate
getR0InIceCubeCoordinate() - クラスのメソッドiceCube.uhe.particles.I3Particle: Returns the axis location (possibly, center of brightness) in the Earth Center coordinate
getRadiation(int) - クラスのメソッドiceCube.uhe.points.ParticlePoint: Radiation constant is acquired for a given Material Number and a given species index of atom.
getRadiusFromEarthCenter(double) - クラスのメソッドiceCube.uhe.points.ParticlePoint: Calculate the radius from the earth center to the particle location.
GetRandomDouble() - クラスのメソッドnumRecipes.RandomGenerator
getRecoEnergy() - クラスのメソッドiceCube.uhe.particles.I3Particle: get the energy estimated by a reconstruction program
getRedShiftTerm(double, double, double, double) - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunction
getRedShiftTerm(double, double, double, double, double) - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunction: additional contribution when the evolution goes const when redshift is beyond zConst
getRelativeFlux(double, double) - クラスのメソッドiceCube.uhe.muonModel.RelativeElbertFluxTableMaker
getScreenFactor() - クラスのメソッドiceCube.uhe.interactions.Ionization
getScreenFactor(int) - クラスのメソッドiceCube.uhe.interactions.PairCreation: Calculate the factor due to the screening effect on an atomic ellectron
getShowerMultiplicity() - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Multiplicity of shower particles from the black hole evaporation.
getSigma() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceHadronic: return total cross section [cm^2]
getSigma() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic: return total cross section [cm^2]
getSigma() - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Total cross section [cm^2]
getSigmaFluxMap(double, double) - クラスのメソッドiceCube.uhe.analysis.YieldAnalysisFactory: Make a map of (neutrino crosssection [cm^2], log10(neutrino energy flux [GeV/cm^2 sec sr])) for a given log10(neutrino energy [GeV]) and the number of events
getSigmaMatrix(int) - クラスのメソッドiceCube.uhe.interactions.InteractionsMatrix: Get the element of the total cross section matrix
getSigmaYieldMap(double) - クラスのメソッドiceCube.uhe.analysis.YieldAnalysisFactory: Returns the map containing a pair of (cross section, yield) for a given log(Neutrino Energy [GeV])
getSignalFactor(double, PoissonBinnedLikelihoodCalculator) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Calculate the signalFactor to maximize likelihood to the series of (N_i, bg_mu_i+sig_mu_i*signalFactor).
getSignalSetsListIterator() - クラスのメソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: return the list iterator to access the signal poisson binned data with various model parameters.
getSignalToMaximizeProbability(double, long) - クラスの static メソッドnumRecipes.FeldmanCousins
getSingleCascadeEnergyLossAlongTheTrack(JulietEventGenerator, J3Vector, J3Vector) - クラスの static メソッドiceCube.uhe.analysis.RunJulietMillipede: Calculate the amount of the cacsade energy loss along the juliet track [startVertex endVertex].
getSlantDepth(double, ParticlePoint) - クラスの static メソッドiceCube.uhe.muonModel.CosmicRayEnergyCalculator
getSlantDepth() - クラスのメソッドiceCube.uhe.points.ParticlePoint: Obtain the slant depth
getStartLocation() - クラスのメソッドiceCube.uhe.event.RunManager: Get the location of primary particle
getStartLocationAlongTheAxis() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Get the start location of primary particle.
getStartLocationAlongTheAxis() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Get the start location of primary particle.
getStepDx() - クラスのメソッドiceCube.uhe.event.Event: Get the step size for traceParticle()
getStepSizeOfSignalIntervalCalculation() - クラスの static メソッドnumRecipes.FeldmanCousins
getSumOfExpectedValues() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Return the sum of the expected values \mu_i.
getSumOfObservedValues() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Return the sum of the observed numbers \N_i.
getSurfacePoint(double, double) - クラスのメソッドgeometry.EarthCenterCoordinate: Get the point vector on the earth surface.
getTargetPhotonEnergy(double, double) - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: calculate the target photon energy corresponsing to a given neutrinoEnergy [GeV]
getTargetPhotonEnergyMinimum() - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: calculate the minimum target photon energy for the setted neutrinoEnergyMax
getTauHadronDecayProbFromW(double, double) - クラスの static メソッドiceCube.uhe.decay.Decay: Calculate the Tau hadron Decay probability per inelasticity "y" that the decay product (in this case hadron) see its energy of y*Energy of tau.
getTauHadronDecayProbToW(double, double) - クラスの static メソッドiceCube.uhe.decay.Decay: Calculate the Tau hadron Decay probability per inelasticity "y" that the decay product (in this case nu-tau) see its energy of y*Energy of tau.
getTauMultiplicity() - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Multiplicity of taus from the black hole evaporation.
getTauToChargedLeptonDecayMatrix(int, int) - クラスのメソッドiceCube.uhe.decay.TauDecayMatrix: get the element of the decay matrix of tau-> l^+-
getTauToChargedLeptonDecayMatrix(int) - クラスのメソッドiceCube.uhe.decay.TauDecayYMatrix: get the element of the decay matrix of tau-> l^+-
getTauToHadronDecayMatrix(int, int) - クラスのメソッドiceCube.uhe.decay.TauDecayMatrix: get the element of the decay matrix of tau-> hadrons
getTauToHadronDecayMatrix(int) - クラスのメソッドiceCube.uhe.decay.TauDecayYMatrix: get the element of the decay matrix of tau-> hadrons
getTauToNuDecayMatrix(int, int) - クラスのメソッドiceCube.uhe.decay.TauDecayMatrix: get the element of the decay matrix of tau->nuE or nuMu
getTauToNuDecayMatrix(int) - クラスのメソッドiceCube.uhe.decay.TauDecayYMatrix: get the element of the decay matrix of tau->nuE or nuMu
getTauToNuTauDecayMatrix(int, int) - クラスのメソッドiceCube.uhe.decay.TauDecayMatrix: get the element of the decay matrix of tau->nuTau
getTauToNuTauDecayMatrix(int) - クラスのメソッドiceCube.uhe.decay.TauDecayYMatrix: get the element of the decay matrix of tau->nuTau
getThePerpendicularOnLineFromPoint(J3Line, J3Vector) - クラスの static メソッドgeometry.J3Utility
getTotalCascadeFlux(double, double) - クラスのメソッドiceCube.uhe.event.EventMatrix: Obtain dN/dLogE for Total cascades
getTotalCascadeFlux(double, double) - クラスのメソッドiceCube.uhe.event.EventMatrix_single: Obtain dN/dLogE for Total cascades
getTrackLocationIce3Iterator() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator
getTrackLocationIce3Iterator() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2
getTrackParticleIterator() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator
getTrackParticleIterator() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2
getTransferMatrix(int, int) - クラスのメソッドiceCube.uhe.interactions.InteractionsMatrix: Get the element of the transfter matrix jlogE ~ log10(y*E)
getTypeOfInteraction() - クラスのメソッドiceCube.uhe.decay.MuDecayBase: get Type Of Interaction (Interaction->0; Decay->1)
getTypeOfInteraction() - クラスのメソッドiceCube.uhe.decay.TauDecayBase: get Type Of Interaction (Interaction->0; Decay->1)
getTypeOfInteraction() - クラスのメソッドiceCube.uhe.event.MonteCarloBase: Get type of the interaction (Interaction->0; Decay->1)
getTypeOfInteraction() - クラスのメソッドiceCube.uhe.interactions.ElectronBase: get Type Of Interaction (Interaction->0; Decay->1)
getTypeOfInteraction() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Get type of the interaction (Interaction->0; Decay->1)
getTypeOfInteraction() - クラスのメソッドiceCube.uhe.interactions.InteractionsBase: Get type of the interaction (Interaction->0; Decay->1)
getUpperLimit(double, long) - クラスの static メソッドnumRecipes.FeldmanCousins: Calculate upper limit of number of signals for a given observed number, nObserved, in expectation of nBackground and return the result.
getValue() - クラスのメソッドiceCube.uhe.event.SwingWorker: Get the value produced by the worker thread, or null if it hasn't been constructed yet.
getWeakDecayProbFromW(double, double) - クラスの static メソッドiceCube.uhe.decay.Decay: Calculate the Weak Decay probability per inelasticity "y" that the decay product see its energy of y*Energy of the decaying particle.
getWeakDecayProbToW(double, double) - クラスの static メソッドiceCube.uhe.decay.Decay: Calculate the Weak Decay probability per inelasticity "y" that the decay product see its energy of y*Energy of the decaying particle.
getX() - クラスのメソッドgeometry.J3Vector: get x component
getY() - クラスのメソッドgeometry.J3Vector: get y component
getYcut() - クラスのメソッドiceCube.uhe.interactions.Ionization
getYield(double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Calculate the Neutrino yeild [cm^2 sec sr] at the surface to give numberOfEvents you set in the argument.
getYield(double) - クラスのメソッドiceCube.uhe.analysis.PropagationMatrixFlux: Calculate the Neutrino yeild [cm^2 sec sr] at the surface to give numberOfEvents you set in the argument.
getYmax() - クラスの static メソッドiceCube.uhe.decay.Decay
getYmax(double) - クラスの static メソッドiceCube.uhe.decay.Decay
getYmax() - クラスのメソッドiceCube.uhe.interactions.Bremsstrahlung
getYmax() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic
getYmax() - クラスのメソッドiceCube.uhe.interactions.Ionization
getYmax() - クラスのメソッドiceCube.uhe.interactions.KnockOnElectrons
getYmax() - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Getting the range of allowed y for a given interaction
getYmax() - クラスのメソッドiceCube.uhe.interactions.NeutrinoCharge
getYmax() - クラスのメソッドiceCube.uhe.interactions.NeutrinoChargeZeusPDF
getYmax() - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutral
getYmax() - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutralZeusPDF
getYmax() - クラスのメソッドiceCube.uhe.interactions.PairCreation
getYmax() - クラスのメソッドiceCube.uhe.interactions.PairCreationFit
getYmax() - クラスのメソッドiceCube.uhe.interactions.PhotoNuclear
getYmax() - クラスのメソッドiceCube.uhe.interactions.PhotoNuclearFit
getYmaxCharge(int) - クラスのメソッドiceCube.uhe.interactions.Bremsstrahlung
getYmaxCharge(int) - クラスのメソッドiceCube.uhe.interactions.PairCreation
getYmin() - クラスの static メソッドiceCube.uhe.decay.Decay
getYmin() - クラスのメソッドiceCube.uhe.interactions.Bremsstrahlung: Getting the range of allowed y for a given interaction
getYmin() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic
getYmin() - クラスのメソッドiceCube.uhe.interactions.Ionization
getYmin() - クラスのメソッドiceCube.uhe.interactions.KnockOnElectrons: Getting the range of allowed y for a given interaction
getYmin() - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation
getYmin() - クラスのメソッドiceCube.uhe.interactions.NeutrinoCharge: Getting the range of allowed y for a given interaction
getYmin() - クラスのメソッドiceCube.uhe.interactions.NeutrinoChargeZeusPDF: Getting the range of allowed y for a given interaction
getYmin() - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutral: Getting the range of allowed y for a given interaction
getYmin() - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutralZeusPDF: Getting the range of allowed y for a given interaction
getYmin() - クラスのメソッドiceCube.uhe.interactions.PairCreation: Getting the range of allowed y for a given interaction
getYmin() - クラスのメソッドiceCube.uhe.interactions.PairCreationFit: Getting the range of allowed y for a given interaction
getYmin() - クラスのメソッドiceCube.uhe.interactions.PhotoNuclear: Getting the range of allowed y for a given interaction
getYmin() - クラスのメソッドiceCube.uhe.interactions.PhotoNuclearFit: Getting the range of allowed y for a given interaction
getYPlusDSigmaDyPlus(double, double) - クラスのメソッドiceCube.uhe.interactions.PairCreation: Integral yPlus*dSigma/dyPlus over a given range to obtain the inelasticity distribution.
getYPlusMax() - クラスのメソッドiceCube.uhe.interactions.PairCreation
getYPlusMin() - クラスのメソッドiceCube.uhe.interactions.PairCreation
getYupper() - クラスのメソッドiceCube.uhe.interactions.Ionization
getZ() - クラスのメソッドgeometry.J3Vector: get z component
getZenithInPolar(J3Vector) - クラスのメソッドgeometry.Coordinate: Convert Cartesian to Poler coordinate system.
GlashowResonanceBase - iceCube.uhe.interactions のクラス: The GlashowResonanceBase class to treat Glashow Resonance for JulietEventGenerator class and RunManager class.
GlashowResonanceBase() - クラスのコンストラクタiceCube.uhe.interactions.GlashowResonanceBase: Default Constructor of GlashowResonanceBase.
GlashowResonanceBase(int, int) - クラスのコンストラクタiceCube.uhe.interactions.GlashowResonanceBase: Constructor of GlashowResonanceBase.
GlashowResonanceHadronic - iceCube.uhe.interactions のクラス: The Glashow Resonance reaction with W into the hadronic decay \bar{nu_e} + e^{-1} -> hadrons The super class GlashowResonanceLeptonic class is used in most of the calculation The inelasiticity parameter y is fixed to be always 0 because all the final states are hadrons that generates cascades at once.
GlashowResonanceHadronic(ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.GlashowResonanceHadronic
GlashowResonanceHadronicMatrix - iceCube.uhe.interactions のクラス: Matrix of the Energy Transfer by particle Interactions.
GlashowResonanceHadronicMatrix(Interactions) - クラスのコンストラクタiceCube.uhe.interactions.GlashowResonanceHadronicMatrix: Constructor: Generate the matrix array
GlashowResonanceLeptonic - iceCube.uhe.interactions のクラス: The Glashow Resonance reaction with W into the leptonic decay \bar{nu_e} + e^{-1} -> \bar{nu_l} + l ^{-1} The approximation that 1.
GlashowResonanceLeptonic(ParticlePoint, int) - クラスのコンストラクタiceCube.uhe.interactions.GlashowResonanceLeptonic: Constructor: Register the ParticlePoint classes and the prodocued flavor - 0 for e, 1 for mu, 2 for tau
GR_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix: For Glashow Resonance
grLeptonMtx - クラスの変数iceCube.uhe.propagation.NeutrinoQuickPropagator: The Leptonic Glashow Resonance interaction to generate the charged lepton
gzkMaximumEnergy - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics
gzkMinimumEnergy - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics

H

H0 - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
HALF_SECOND - クラスの static 変数iceCube.uhe.event.SwingRun
hBar - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction: The plank const
hbar_c - クラスの static 変数iceCube.uhe.interactions.GlashowResonanceLeptonic: conversion constant in the natural unit [cm GeV]
histCosZenithFgQuality - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
histLogEnergyCosZenith - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
histLogNpeCosZenith - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
histLogNpeFgQuality - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
histLogNpeLogEnergy - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
histLogNpeNDOM - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory

I

I3Particle - iceCube.uhe.particles のクラス: This particle class inherited from Particle.java describes a digested IceCube event (both MC and real) in form of JULIeT particle.
I3Particle(int, int, double) - クラスのコンストラクタiceCube.uhe.particles.I3Particle: Constructor.
I3Particle(int, int) - クラスのコンストラクタiceCube.uhe.particles.I3Particle: Constructor.
I3Particle.I3Data - iceCube.uhe.particles のクラス: IceCube data class.
I3Particle.I3Data() - クラスのコンストラクタiceCube.uhe.particles.I3Particle.I3Data
I3ParticleAnalysisFactory - iceCube.uhe.analysis のクラス: I3Particles Analysis Factory.
I3ParticleAnalysisFactory(InputStream) - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleAnalysisFactory: Default Constructor InputStream in : Stream to readout a series of I3Particles that is subject to your analysis It reads all I3Particles from InputStream and hold them in form of List.
I3ParticleAnalysisFactory(InputStream, boolean) - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleAnalysisFactory: Constructor InputStream in : Stream to readout a series of I3Particles that is subject to your analysis filterOutBadRunData : do not use events in the bad run.
I3ParticleBuilder - iceCube.uhe.analysis のクラス: Build IceCube event(s) reading from the f2k data via standard input.
I3ParticleBuilder(boolean) - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleBuilder: Constructor.
I3ParticleBuilderDemo - iceCube.uhe.analysis のクラス: I3Particle.class Demo program.
I3ParticleBuilderDemo() - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleBuilderDemo
I3ParticleCorsikaWeightFiller - iceCube.uhe.analysis のクラス
I3ParticleCorsikaWeightFiller() - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleCorsikaWeightFiller
I3ParticleCREnergyDistFiller - iceCube.uhe.analysis のクラス
I3ParticleCREnergyDistFiller() - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleCREnergyDistFiller
I3ParticleFlux - iceCube.uhe.analysis のクラス: I3ParticleFlux calculates the detectable neutrino event intensity at the Earth Surface using propagation matrix filled in each of I3Particle.
I3ParticleFlux(InputStream) - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleFlux: Constructor
I3ParticleFlux(InputStream, Criteria, boolean) - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleFlux: Constructor.
I3ParticleGZKWeightFiller - iceCube.uhe.analysis のクラス
I3ParticleGZKWeightFiller() - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleGZKWeightFiller
I3ParticleIC22AnalysisFactory - iceCube.uhe.analysis のクラス: I3Particles Analysis Factory for the IC22 data.
I3ParticleIC22AnalysisFactory(InputStream) - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleIC22AnalysisFactory
I3ParticleIC22AnalysisFactory(InputStream, boolean) - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleIC22AnalysisFactory
I3ParticleInputStream - iceCube.uhe.particles のクラス: The Object Particle is serialized and sent out to Outputstream
I3ParticleInputStream() - クラスのコンストラクタiceCube.uhe.particles.I3ParticleInputStream
I3ParticleMCPrimaryWeightFiller - iceCube.uhe.analysis のクラス: This class provides the methods to fill I3Particles with MC primary spectrum weights.
I3ParticleMCPrimaryWeightFiller() - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleMCPrimaryWeightFiller
I3ParticleMillipedeBuilder - iceCube.uhe.analysis のクラス: Build IceCube Millipede results reading from the f2k data via standard input.
I3ParticleMillipedeBuilder(boolean) - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleMillipedeBuilder: Constructor.
I3ParticleOutputStream - iceCube.uhe.particles のクラス: The Object I3Particle is serialized and sent out to Outputstream
I3ParticleOutputStream() - クラスのコンストラクタiceCube.uhe.particles.I3ParticleOutputStream
I3ParticlePropMatrixFiller - iceCube.uhe.analysis のクラス: This class provides the methods to fill I3Particles with the pregenerated propagation matrix.
I3ParticlePropMatrixFiller() - クラスのコンストラクタiceCube.uhe.analysis.I3ParticlePropMatrixFiller: Constructor.
I3ParticleStreamDemo - iceCube.uhe.particles のクラス: I3Particle.class Demo program.
I3ParticleStreamDemo() - クラスのコンストラクタiceCube.uhe.particles.I3ParticleStreamDemo
I3ParticleWeightFiller - iceCube.uhe.analysis のクラス: This class provides the methods to fill I3Particles with GZK and Atmospheric muon weights.
I3ParticleWeightFiller() - クラスのコンストラクタiceCube.uhe.analysis.I3ParticleWeightFiller
I3ParticleWrapper - iceCube.uhe.particles のクラス
I3ParticleWrapper() - クラスのコンストラクタiceCube.uhe.particles.I3ParticleWrapper
iceCube.uhe.analysis - パッケージ iceCube.uhe.analysis: Package icecube.uhe.analysis This package contains the classes for the IceCube Extremely-High Energy Neutrino analysis with the I3Particle-based data.
iceCube.uhe.decay - パッケージ iceCube.uhe.decay: Package icecube.uhe.decay This package includes the classes to handle the particle decay.
iceCube.uhe.event - パッケージ iceCube.uhe.event: Package icecube.uhe.event This package contains the classes to generate Monte Carlo events of neutrino/muon/tau tracks propagating in rock/ice.
iceCube.uhe.geometry - パッケージ iceCube.uhe.geometry
iceCube.uhe.interactions - パッケージ iceCube.uhe.interactions: Package icecube.uhe.interactions This package deals with all kind of interactions involving elemetary particles such as charged leptons and neutrinos.
iceCube.uhe.muonModel - パッケージ iceCube.uhe.muonModel: Package icecube.uhe.muonModel This package is essentially equivalent to the neutrinoModel package but deals with the atmospheric muon fluxes instead of primary cosmic neutrino fluxes.
iceCube.uhe.neutrinoModel - パッケージ iceCube.uhe.neutrinoModel: Package icecube.uhe.neutrinoModel This package contains the classes to calculate primary neutrino fluxes predicted in the EHE neutrino models such as the GZK cosmogenic neutrino production.
iceCube.uhe.particles - パッケージ iceCube.uhe.particles: Package icecube.uhe.particles This package includes the objects to define elementary particles such as an electron, and a muon-neutrino.
iceCube.uhe.points - パッケージ iceCube.uhe.points: Package icecube.uhe.points This package contains the objects to define the particle location in its progation in the Earth.
iceCube.uhe.propagation - パッケージ iceCube.uhe.propagation: Package icecube.uhe.propagation This package contains the classes to calculate the particle(neutrinos, muons, and tauons) propagation in the Earth.
IceCubeCoordinate - iceCube.uhe.geometry のクラス: This class defines IceCube local coordinate system.
IceCubeCoordinate() - クラスのコンストラクタiceCube.uhe.geometry.IceCubeCoordinate: constructor.
IceCubeGen2Coordinate - iceCube.uhe.geometry のクラス: This class defines IceCube-Gen2 local coordinate system.
IceCubeGen2Coordinate() - クラスのコンストラクタiceCube.uhe.geometry.IceCubeGen2Coordinate: constructor.
IceCubeVolume - iceCube.uhe.geometry のクラス: This class defines geometry of IceCube detecter.
IceCubeVolume() - クラスのコンストラクタiceCube.uhe.geometry.IceCubeVolume: Constructor.
icedist - クラスの static 変数iceCube.uhe.analysis.I3ParticleWeightFiller
icedist - クラスの static 変数iceCube.uhe.muonModel.ElbertFluxTableFactory
icerange - クラスの static 変数iceCube.uhe.analysis.I3ParticleWeightFiller
includeFluctuationEffects - クラスの変数iceCube.uhe.muonModel.AtmMuonBundleFlux
includeNuisance - クラスの変数iceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH
includeNuisance - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
inclusive - クラスの static 変数numRecipes.FeldmanCousins
incompleteGammaDowntoX(double, double) - クラスの static メソッドnumRecipes.SpecialFunctions: Gamma(a,x)/Gamma(a) from x to infinity
incompleteGammaUptoX(double, double) - クラスの static メソッドnumRecipes.SpecialFunctions: gamma(a,x)/Gamma(a) from 0 to x
increment(J3Vector, J3Vector) - クラスのメソッドgeometry.J3Vector: increment vectors a+=b
indexCheck() - クラスの static メソッドnumRecipes.RandomGeneratorTest
inelasticCorrection(double) - クラスのメソッドiceCube.uhe.interactions.Ionization: inelasticity correction
InfoFromMatrixExample - iceCube.uhe.interactions のクラス: Check the generated transfer matrix of the Neutrino Charged Interactions
InfoFromMatrixExample() - クラスのコンストラクタiceCube.uhe.interactions.InfoFromMatrixExample
inIceAreaList - クラスの変数iceCube.uhe.analysis.PropagationMatrixFlux: List to store inIceParticle's effective area
inIceDoubletList - クラスの変数iceCube.uhe.analysis.PropagationMatrixFlux: List to store inIceParticle's doublet
inIceFlavorList - クラスの変数iceCube.uhe.analysis.PropagationMatrixFlux: List to store inIceParticle's flavor
init() - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Initialize the propagation matrices.
initALL() - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Initialize ALL the propagation matrices including the store matrix.
initializeStaticVariables() - クラスの static メソッドnumRecipes.Integration: Initialize the static variables such as grandSum.
initLeptonMatrix() - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: initialized the propagation matrix elements
initNeutrinoMatrix() - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: initialized the propagation matrix elements
InjectionGeometryUtils - iceCube.uhe.geometry のクラス: Collection of the static methods on calculation of the geometrical parameters for in-ice particle injection in JULIeT.
InjectionGeometryUtils() - クラスのコンストラクタiceCube.uhe.geometry.InjectionGeometryUtils
inputI3Particle(InputStream) - クラスの static メソッドiceCube.uhe.particles.I3ParticleInputStream
inputInteractionsMatrix(InputStream) - クラスの static メソッドiceCube.uhe.interactions.InteractionsMatrixInput
inputList(InputStream) - クラスの static メソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
inputParticle(InputStream) - クラスの static メソッドiceCube.uhe.particles.ParticleInputStream
inputPoissonBinnedLikelihoodCalculator(InputStream) - クラスの static メソッドnumRecipes.PoissonBinnedLikelihoodCalculator
integralDFDLogCREDLogEOverCREnergy(double, double, double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux
integralDSigmaDyPlus(double, double) - クラスのメソッドiceCube.uhe.interactions.PairCreation: Integral dSigma/dyPlus over a given range to obtain a partial cross section
integralTauHadronDecayProbFromW(double, double, double) - クラスの static メソッドiceCube.uhe.decay.Decay
integralTauHadronDecayProbToW(double, double, double) - クラスの static メソッドiceCube.uhe.decay.Decay: Integral of the tau hadron decay probability from lowerY to upperY.
integralWeakDecayProbFromW(double, double, double) - クラスの static メソッドiceCube.uhe.decay.Decay: Same as integralWeakDecayProbToW( ), but handling the particles of the charged current on the another side.
integralWeakDecayProbToW(double, double, double) - クラスの static メソッドiceCube.uhe.decay.Decay: Integral of the weak decay probability from lowerY to upperY.
integrateGauss(double, double, double, double) - クラスの static メソッドnumRecipes.SpecialFunctions: Integration of the Gaussian function.
Integration - numRecipes のクラス: Utilities for Numerical Integration.
Integration() - クラスのコンストラクタnumRecipes.Integration
IntegrationDemo - numRecipes のクラス: Demo program for the Integration.class
IntegrationDemo() - クラスのコンストラクタnumRecipes.IntegrationDemo
InteractionGraphics - iceCube.uhe.event のクラス
interactionName() - クラスのメソッドiceCube.uhe.interactions.Bremsstrahlung: Show Name of the Interaction.
interactionName() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceHadronic
interactionName() - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic
interactionName() - クラスのメソッドiceCube.uhe.interactions.Ionization: Show Name of the Interaction.
interactionName() - クラスのメソッドiceCube.uhe.interactions.KnockOnElectrons: Show Name of the Interaction
interactionName() - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Show Name of the Interaction
interactionName() - クラスのメソッドiceCube.uhe.interactions.NeutrinoCharge: Show Name of the Interaction
interactionName() - クラスのメソッドiceCube.uhe.interactions.NeutrinoChargeZeusPDF: Show Name of the Interaction
interactionName() - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutral: Show Name of the Interaction
interactionName() - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutralZeusPDF: Show Name of the Interaction
interactionName() - クラスのメソッドiceCube.uhe.interactions.PairCreation: Show Name of the Interaction
interactionName() - クラスのメソッドiceCube.uhe.interactions.PairCreationFit: Show Name of the Interaction
interactionName() - クラスのメソッドiceCube.uhe.interactions.PhotoNuclear: Show the name of interaction
interactionName() - クラスのメソッドiceCube.uhe.interactions.PhotoNuclearFit: Show Name of the Interaction
InteractionsBase - iceCube.uhe.interactions のクラス: The InteractionsBase class to treat all of interactions same as decay for RunManager class.
InteractionsBase(InteractionsMatrix) - クラスのコンストラクタiceCube.uhe.interactions.InteractionsBase: Constructor for making the cumulative table.
InteractionsMatrix - iceCube.uhe.interactions のクラス: Matrix of the Energy Transfer by particle Interactions.
InteractionsMatrix(Interactions) - クラスのコンストラクタiceCube.uhe.interactions.InteractionsMatrix: Constructor: Generate the matrix array
InteractionsMatrixInput - iceCube.uhe.interactions のクラス: The Object InteractionsMatrix is read out from Inputstream
InteractionsMatrixInput() - クラスのコンストラクタiceCube.uhe.interactions.InteractionsMatrixInput
InteractionsMatrixOutput - iceCube.uhe.interactions のクラス: The Object InteractionsMatrix is serialized and sent out to Outputstream
InteractionsMatrixOutput() - クラスのコンストラクタiceCube.uhe.interactions.InteractionsMatrixOutput
interactionsNameInPlay() - クラスのメソッドiceCube.uhe.event.Event: Get the Interaction's name which has just interacted with your particle
Interpolation - numRecipes のクラス: Utilities to interpolate data points (x_i, y_i) (i=0,...).
Interpolation() - クラスのコンストラクタnumRecipes.Interpolation
InterpolationDemo - numRecipes のクラス
InterpolationDemo() - クラスのコンストラクタnumRecipes.InterpolationDemo
InterpolationDemo2 - numRecipes のクラス
InterpolationDemo2() - クラスのコンストラクタnumRecipes.InterpolationDemo2
interrupt() - クラスのメソッドiceCube.uhe.event.SwingWorker: A new method that interrupts the worker thread.
intMtxPathname - クラスの static 変数iceCube.uhe.analysis.BHevapPropagationMatrixFlux
intMtxPathname - クラスの static 変数iceCube.uhe.analysis.QuickNCPropagationMatrixFlux
intMtxPathname - クラスの static 変数iceCube.uhe.analysis.YieldAnalysisFactory: Path to Intertaction Matrix file
intMtxPathname - クラスの static 変数iceCube.uhe.propagation.NeutrinoQuickPropagator
intProbMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
intProbNeutrino - クラスの変数iceCube.uhe.propagation.PropagationMatrix
intProbNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix: For Glashow Resonance
intProbTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
Ionization - iceCube.uhe.interactions のクラス: The Ionization loss formula for JULIeT application.
Ionization(Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.Ionization: Constructor.
IonizedPotential - クラスの static 変数iceCube.uhe.interactions.Ionization: Ion potential table
isATWDNpeLarger(I3Particle) - クラスのメソッドiceCube.uhe.analysis.Criteria: Tell whether this event has ATWD-based NPEs larger than ones based on FADC.
isBadRunData(I3Particle) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Judge if this event has to be excluded because of the bad run.
isBadRunData(I3Particle) - クラスのメソッドiceCube.uhe.analysis.I3ParticleIC22AnalysisFactory: Judge if this event has to be excluded because of the bad run.
isCOBZCut - クラスの変数iceCube.uhe.analysis.Criteria
isCOBZwithinRange(I3Particle) - クラスのメソッドiceCube.uhe.analysis.Criteria: Tell whether this event has z depth of the Center of Brightness vertex within a given range set by the method setEHESuperCut().
isCubic() - クラスのメソッドiceCube.uhe.geometry.Volume: Tells if this volume is cubit.
isDone() - クラスのメソッドiceCube.uhe.event.JulietTask: Called from ProgressBarDemo to find out if the task has completed.
isEHESuperCut - クラスの変数iceCube.uhe.analysis.Criteria
isGZK() - クラスのメソッドiceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder: tell this object that the binned data is concerned with the GZK neutrinos with m and zmax varied.
IsInsideEarth(J3Vector) - クラスの static メソッドgeometry.EarthCenterCoordinate: Check if the point is inside the earth.
isInsideEarth(J3Vector, IceCubeCoordinate, EarthCenterCoordinate, Volume, int) - クラスの static メソッドiceCube.uhe.geometry.ParticleTracker: Check if the particle location represented by EarthCenter coordinate is inside the earth.
isInsideEarth(J3Vector, J3Vector, IceCubeCoordinate, EarthCenterCoordinate, Volume, int) - クラスの static メソッドiceCube.uhe.geometry.ParticleTracker
isInsidePlane(J3Vector, J3Vector) - クラスの static メソッドiceCube.uhe.geometry.Volume: Check if the point described by IceCube coordinate is inside the plane.
isInsideVolume(J3Vector) - クラスのメソッドiceCube.uhe.geometry.Volume: Check if the point described by IceCube coordinate is inside the volume.
isInsideVolume(J3Vector, J3Vector) - クラスのメソッドiceCube.uhe.geometry.Volume: Check if the point r - shift described by IceCube coordinate is inside the volume.
isJ3LineInsideVolume(J3Line, double, double) - クラスのメソッドiceCube.uhe.geometry.Volume: Check if the given J3Line would pass inside the volome in the range of [axisLengthFrom, axisLengthTo]
isJ3LineInsideVolume(J3Line, J3Vector, double, double) - クラスのメソッドiceCube.uhe.geometry.Volume: Check if the given J3Line - J3Vector would pass inside the volome in the range of [axisLengthFrom, axisLengthTo]
isLDP - クラスの変数iceCube.uhe.analysis.LDPcalculator
isMCTruth() - クラスのメソッドiceCube.uhe.particles.I3Particle: Tells if this object returns valuables on MC Truth.
isNobservedWithinConfidenceBelt(double, double, long) - クラスの static メソッドnumRecipes.FeldmanCousins: Tells whether the given number of observed events are within the confidence belt for the given signal and expected background.
isPerNucleon - クラスの変数iceCube.uhe.interactions.GlashowResonanceLeptonic
isPowerLaw() - クラスのメソッドiceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder: tell this object that the binned data is concerned with the power law fluxes with cutoff energy etc varied.
isPowerLaw() - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: tell if the setted model is a powerlaw model or not
isPropagationDone() - クラスのメソッドiceCube.uhe.event.JulietTask: Tell outside objects whether runEvent is done or not.
isTheNuisanceSignalIncluded() - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
isThisEventInTheGZKRegion(I3Particle, int) - クラスのメソッドiceCube.uhe.analysis.Criteria: Tell if this event is within the GZK boundary set by the method setEHESuperCUT(category, vertex) in the corresponding event category.
isValidAlpha(double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Check if the alpha value in setting is within the valid range of the Elbert model.
isValidDoublet(int) - クラスの static メソッドiceCube.uhe.particles.Particle
isValidEnergy(double) - クラスのメソッドiceCube.uhe.muonModel.CosmicRayFlux: Check if the energy is in the range where this power law model is valid.
isValidEnergy(double) - クラスのメソッドiceCube.uhe.particles.Particle
isValidFlavor(int) - クラスの static メソッドiceCube.uhe.particles.Particle
isValidIndex(int) - クラスのメソッドiceCube.uhe.decay.MuDecayMatrix: Checking the energy index
isValidIndex(int) - クラスのメソッドiceCube.uhe.decay.MuDecayYMatrix: Checking the energy index
isValidIndex(int) - クラスのメソッドiceCube.uhe.decay.TauDecayMatrix: Checking the energy index
isValidIndex(int) - クラスのメソッドiceCube.uhe.decay.TauDecayYMatrix: Checking the energy index
isValidIndex(int) - クラスのメソッドiceCube.uhe.interactions.InteractionsMatrix: Checking the energy index
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.Bremsstrahlung: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.Ionization: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.KnockOnElectrons: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoCharge: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoChargeZeusPDF: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutral: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutralZeusPDF: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.PairCreation: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.PairCreationFit: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.PhotoNuclear: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticity(double) - クラスのメソッドiceCube.uhe.interactions.PhotoNuclearFit: Checking the range of the given inelasticity y that is determined in an individual interaction channel.
isValidInelasticityPlus(double) - クラスのメソッドiceCube.uhe.interactions.PairCreation
isValidNadir(double) - クラスの static メソッドiceCube.uhe.points.ParticlePoint
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.decay.Decay: Checking the particle kind involved with a given decay channel.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.Bremsstrahlung: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.Ionization: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.KnockOnElectrons: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.NeutrinoCharge: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.NeutrinoChargeZeusPDF: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutral: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.NeutrinoNeutralZeusPDF: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.PairCreation: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.PairCreationFit: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.PhotoNuclear: Checking the particle kind involved with a given interaction.
isValidParticle(Particle) - クラスのメソッドiceCube.uhe.interactions.PhotoNuclearFit: Checking the particle kind involved with a given interaction.
iterateTrapzd(Function, int, double[], double, double, int) - クラスの static メソッドnumRecipes.Integration: Iterated Trapzd integraion method.
iteratorOfAtmosphericMuonFlux() - クラスのメソッドiceCube.uhe.particles.I3Particle: Return iterator to the map of GZK neutrino fluxes.
iteratorOfGZKNeutrinoFlux() - クラスのメソッドiceCube.uhe.particles.I3Particle: Return iterator to the map of GZK neutrino fluxes.

J

J3Line - geometry のクラス: This class describes line in three dimensional space.
J3Line(J3Vector, J3UnitVector, double) - クラスのコンストラクタgeometry.J3Line: Constructor
J3Line(J3Vector, J3UnitVector) - クラスのコンストラクタgeometry.J3Line
J3UnitVector - geometry のクラス: The class describes a unit vector.
J3UnitVector(double, double, double) - クラスのコンストラクタgeometry.J3UnitVector
J3Utility - geometry のクラス: This class provides some utility for common geometrical calculation.
J3Utility() - クラスのコンストラクタgeometry.J3Utility
J3Vector - geometry のクラス: This class provides a base to represent/handle three vector.
J3Vector(double, double, double) - クラスのコンストラクタgeometry.J3Vector: Constructor.
J3Vector() - クラスのコンストラクタgeometry.J3Vector: Constructor.
J3VectorDemo - geometry のクラス: A simple Demo program to show usage of the J3Vector class
J3VectorDemo() - クラスのコンストラクタgeometry.J3VectorDemo
jaidaFactory - クラスの変数iceCube.uhe.analysis.EnergyHistogramMaker
jaidaFactory - クラスの変数iceCube.uhe.analysis.PropagationMatrixDrawer
JaidaPlotStyleSetter - iceCube.uhe.analysis のクラス
JaidaPlotStyleSetter() - クラスのコンストラクタiceCube.uhe.analysis.JaidaPlotStyleSetter
JulietEventGenerator - iceCube.uhe.event のクラス: This is a run manager for the Event class.
JulietEventGenerator(int, int, double, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int) - クラスのコンストラクタiceCube.uhe.event.JulietEventGenerator: Constructor.
JulietEventGenerator(int, int, double, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int) - クラスのコンストラクタiceCube.uhe.event.JulietEventGenerator: The same constructor, but without the glashow resoanance.
JulietEventGenerator() - クラスのコンストラクタiceCube.uhe.event.JulietEventGenerator
JulietEventGenerator4Gen2 - iceCube.uhe.event のクラス: This is a run manager for the Event class.
JulietEventGenerator4Gen2(int, int, double, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int) - クラスのコンストラクタiceCube.uhe.event.JulietEventGenerator4Gen2: Constructor.
JulietEventGenerator4Gen2(int, int, double, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int, int) - クラスのコンストラクタiceCube.uhe.event.JulietEventGenerator4Gen2: The same constructor, but without the glashow resoanance.
JulietEventGenerator4Gen2() - クラスのコンストラクタiceCube.uhe.event.JulietEventGenerator4Gen2
JulietTask - iceCube.uhe.event のクラス: Uses a SwingWorker to perform time-consuming tasks in JulietEventGenerator such as generating the Interaction Matrix and running the propagating particle.
JulietTask(SwingRun) - クラスのコンストラクタiceCube.uhe.event.JulietTask
julietTask - クラスの変数iceCube.uhe.event.SwingRun

K

kB - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction: The boltzmann const
Kion - クラスの static 変数iceCube.uhe.interactions.Ionization: The dimension constatnt in the dE/dX.
Km - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction: km unit
KNOCK_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix
KnockOnElectrons - iceCube.uhe.interactions のクラス: The Knock-on electrons energy loss involving UHE leptons propagating undergound rock and ice are calculated in this subclass.
KnockOnElectrons(Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.KnockOnElectrons: Constructor: Register the Particle and ParticlePoint classes
KSTest - numRecipes のクラス: Utilities for Kolmogorov-Smirnov Test.
KSTest() - クラスのコンストラクタnumRecipes.KSTest

L

LDPcalculator - iceCube.uhe.analysis のクラス: Calculate either the model rejection factor (MRF) or the least signal discovery potential (LDP).
LDPcalculator(boolean, boolean) - クラスのコンストラクタiceCube.uhe.analysis.LDPcalculator: Constructor.
LDPcalculator(boolean) - クラスのコンストラクタiceCube.uhe.analysis.LDPcalculator
ldpMap - クラスの変数iceCube.uhe.analysis.LDPcalculator
LEPTW_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix
likelihoodRatioType - クラスの static 変数iceCube.uhe.analysis.ModelULCalculatorByPoissonBinnedLikelihood
listFluxes(double, double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: integrate getDFDLogCREDLogE(logEcr,logEmu,cosTheta) over logEcr and compare with getDFDLogE(logEmu,cosTheta) for the consistency check
listFluxes(double, double) - クラスのメソッドiceCube.uhe.muonModel.PropagatingAtmMuonFlux: integrate getDFDLogCREDLogE(logEcr,logEmu,cosTheta) over logEcr and compare with getDFDLogE(logEmu,cosTheta) for the consistency check
llhAlter - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
llhFactory - クラスの変数numRecipes.PoissonBinnedLikelihoodRatioTest: PoissonBinnedLikelihoodRatioFactory object
llhNull - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
ln10 - クラスの static 変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
ln10 - クラスの static 変数iceCube.uhe.interactions.NeutrinoBHevaporation
log10_screen - クラスの static 変数iceCube.uhe.interactions.Ionization
logE_multiplicity1_table - クラスの変数iceCube.uhe.interactions.NeutrinoBHevaporation: log10(Energy[GeV]) for multiplicity table model 1
logE_multiplicity2_table - クラスの変数iceCube.uhe.interactions.NeutrinoBHevaporation: log10(Energy[GeV]) for multiplicity table model 2
logE_table - クラスの変数iceCube.uhe.interactions.NeutrinoBHevaporation
logEarray - クラスの static 変数iceCube.uhe.interactions.CELbeta
logEbinWidth - クラスの変数iceCube.uhe.analysis.I3ParticleFlux: bin widths for getInIceEffectiveArea()
logEmuonMin - クラスの変数iceCube.uhe.muonModel.ElbertFluxTableFactory
logEmuonStepSize - クラスの変数iceCube.uhe.muonModel.ElbertFluxTableFactory
logNPEMax - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: maximum range of logNPE
logNPEMin - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: mininum range of logNPE
lorentzBulkFactor - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: The Lorentz factor of the jet

M

m_screen - クラスの static 変数iceCube.uhe.interactions.Ionization
main(String[]) - クラスの static メソッドgeometry.J3VectorDemo
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.BHevapPropagationMatrixFlux: a simple main function for debugging this class
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.ConstrainEvolutionZmax
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawAtmMuonBundle
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawAtmMuonBundle2D
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawAtmMuonBundleByElbertFluxTable
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawAtmMuonBundleByRelativeWeight
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawAtmMuonBundleCombined
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawAtmMuonBundleFluxRatio
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawBGSpectrumByJaidaHisto
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawEffAreaTable
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawEvolutionZmaxContour
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawInIceEffArea
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawMillipedeEnergyProbability: Main method.
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawNuEffAreaByAreaTable
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DrawNuEffAreaByI3Particle
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DumpQuickNCPropagationMatrixYield
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.DumpQuickPropagationMatrixYield
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.EffAreaTable: A simple main method for test
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.EnergyHistogramMaker: Main method -- Draw the 2D histogram to show the colleration of energies
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.FitElbertModelFixedEthWithIC9Data
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.FitElbertModelWithIC9Data
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleBuilderDemo
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleCorsikaWeightFiller: Main method -- Reading out the stored I3Particles and fills the weight
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleCREnergyDistFiller: Main method -- Reading out the stored I3Particles and fills the CR Energy spectrum
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleGZKWeightFiller: Main method -- Reading out the stored I3Particles and fills the weight
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleMCPrimaryWeightFiller: Main method -- Reading out the stored I3Particles and fills the weight
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleMillipedeBuilder
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.I3ParticlePropMatrixFiller: Main method -- Reading out the stored I3Particles and fills the propagation matrix
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.I3ParticleWeightFiller: Main method -- Reading out the stored I3Particles and fills the weight
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.LDPcalculator: A simple main method
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.MakeBootstrapBGSpectrum
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.MakeEffAreaTable
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.MakeQuickPropagationYieldMap
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.MergeI3Particles
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.ModelNormalizationCalculatorByPoissonBinnedLikelihood
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: A simple main method for debugging
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.ModelPvalueCalculatorByPoissonBinnedLikelihood
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.ModelULCalculatorByPoissonBinnedLikelihood
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.NeutrinoEffAreaTable: A simple main method for test
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.NeutrinoExposureTable: A simple main method for test
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.NeutrinoExposureTableHESE: A simple main method for test
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.NPEthresholdOptimizer: A simple main method for test
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.PlotAllSpectrum
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.PlotChi2ByJaidaHisto
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.PlotCRSpectrum
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.PlotEventNumberRatioByJaidaHisto
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.PlotIC22BG2DSpectrum
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.PlotIC22SIG2DSpectrum
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.PlotIC22Spectrum
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.PlotSpectrumByJaidaHisto
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.PropagationMatrixDrawer: Main method -- Draw the 2D histogram to show the colleration of energies
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunAnalysis
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunAtmMuonBundleCombinedFitter
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunAtmMuonBundleFitter
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunBGOnlyHypothesisTestByBinnedLikelihood
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunI3ParticleBuilder
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunI3ParticleFlux
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunJaidaAnalysis
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunJaidaAnalysisIC22
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunJaidaAnalysisIC9
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunJulietMillipede: Main method.
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunModelTestByPoissonBinnedLikelihood
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunPropagationMatrixFlux
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunQuickPropagationMatrixFlux
main(String[]) - クラスの static メソッドiceCube.uhe.analysis.RunSignalVsNuisanceSignal
main(String[]) - クラスの static メソッドiceCube.uhe.decay.MuDecayMatrixDemo
main(String[]) - クラスの static メソッドiceCube.uhe.decay.MuDecayYMatrixDemo
main(String[]) - クラスの static メソッドiceCube.uhe.decay.TauDecayMatrixDemo
main(String[]) - クラスの static メソッドiceCube.uhe.decay.TauDecayYMatrixDemo
main(String[]) - クラスの static メソッドiceCube.uhe.event.DrawAngularEventAtmMuonFlux
main(String[]) - クラスの static メソッドiceCube.uhe.event.DrawAngularEventFlux
main(String[]) - クラスの static メソッドiceCube.uhe.event.DrawEventArrayForEachInteraction
main(String[]) - クラスの static メソッドiceCube.uhe.event.DrawEventAtmMuonFluxIntegral
main(String[]) - クラスの static メソッドiceCube.uhe.event.DrawEventFlux
main(String[]) - クラスの static メソッドiceCube.uhe.event.DrawEventFluxIntegral
main(String[]) - クラスの static メソッドiceCube.uhe.event.DrawEventMatrix
main(String[]) - クラスの static メソッドiceCube.uhe.event.DrawEventMatrix_single
main(String[]) - クラスの static メソッドiceCube.uhe.event.EventRate
main(String[]) - クラスの static メソッドiceCube.uhe.event.MakeJuliet4Gen2JaidaTree
main(String[]) - クラスの static メソッドiceCube.uhe.event.NeutEventRate
main(String[]) - クラスの static メソッドiceCube.uhe.event.PlotJuliet4Gen2JaidaTree
main(String[]) - クラスの static メソッドiceCube.uhe.event.RunJuliet: Main method.
main(String[]) - クラスの static メソッドiceCube.uhe.event.RunJuliet4Gen2
main(String[]) - クラスの static メソッドiceCube.uhe.event.RunManager: Main method.
main(String[]) - クラスの static メソッドiceCube.uhe.event.SwingRun
main(String[]) - クラスの static メソッドiceCube.uhe.event.SwingRunIceTray
main(String[]) - クラスの static メソッドiceCube.uhe.event.WriteEventAtmFluxOverAllAngle
main(String[]) - クラスの static メソッドiceCube.uhe.event.WriteEventFluxOverAllAngle
main(String[]) - クラスの static メソッドiceCube.uhe.geometry.CalculateI3CoordinateOnEarthCenter
main(String[]) - クラスの static メソッドiceCube.uhe.geometry.DemoGen2GeometryConfiguration
main(String[]) - クラスの static メソッドiceCube.uhe.geometry.InjectionGeometryUtils: Simple main method
main(String[]) - クラスの static メソッドiceCube.uhe.geometry.RunParticle
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.BremsstrahlungDemo
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.CalibrateLeptonTransferMatrix
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.CELbeta
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.CheckLeptonTransferMatrix
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.CheckNeutrinoChargeMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.DrawGlashowResonance
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.DrawInteractionsBase
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.DrawInteractionsMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.DrawIonization
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.InfoFromMatrixExample
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakeBremsstrahlungMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakeGlashowResonanceHadronicMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakeGlashowResonanceLeptonicMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakeKnockOnElectronsMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakeNeutrinoBHevapMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakeNeutrinoChargeMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakeNeutrinoNeutralMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakePairCreationFitMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakePairCreationMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakePairCreationTable
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakePhotoNuclearFitMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakePhotoNuclearMtx
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.MakePhotoNuclearTable
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.NeutrinoChargeDemo
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.PairCreationDemo
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.PhotoNuclearDemo
main(String[]) - クラスの static メソッドiceCube.uhe.interactions.TableAdjust
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.CosmicRayEnergyCalculator
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.DrawAngularAtmMuonFlux
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.DrawAtmMuonBundleFlux
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.DrawAtmMuonFluxIntegral
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.DrawCosmicRayFlux
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.DrawCosThetaRelation
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.DrawCREnergyForBundle
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.DrawPropagatingAtmMuonBundleFlux
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.DrawPropagatingAtmMuonFlux
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Simple main function for debugging/demonstrating this class
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.MakeCosmicRayFluxTable
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.MakeElbertFluxTable
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.MakeElbertFluxTableWithFixedEth
main(String[]) - クラスの static メソッドiceCube.uhe.muonModel.RelativeElbertFluxTableMaker
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawAngularNeutrinoFlux
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawAngularQuickNeutrinoFlux
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawCRFlux
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawEvolutionZmaxContour
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawIntegralNeutrinoFlux
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawNeutrinoFlux
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawNeutrinoFluxFunction
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawNeutrinoFluxIntegral
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawNeutrinoFluxRatio
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawNeutrinoFluxwzOsci
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawNeutrinoFluxYield
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawPropagatingNeutrinoFlux
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawPropagatingNeutrinoFlux2
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.DrawSumFlux
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.MakeNeutrinoFluxTable
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunction
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.PrintIntensityOnEvolutionZmaxPlane
main(String[]) - クラスの static メソッドiceCube.uhe.neutrinoModel.SearchEvolution
main(String[]) - クラスの static メソッドiceCube.uhe.particles.I3ParticleStreamDemo
main(String[]) - クラスの static メソッドiceCube.uhe.particles.ParticleArrayDemo
main(String[]) - クラスの static メソッドiceCube.uhe.particles.ParticleDemo
main(String[]) - クラスの static メソッドiceCube.uhe.particles.ParticleStreamDemo
main(String[]) - クラスの static メソッドiceCube.uhe.particles.SwingParticleDemo
main(String[]) - クラスの static メソッドiceCube.uhe.propagation.ComparePropMtxWithGlashow
main(String[]) - クラスの static メソッドiceCube.uhe.propagation.DrawPropagationMatrix
main(String[]) - クラスの static メソッドiceCube.uhe.propagation.DrawPropagationMatrixByFactory
main(String[]) - クラスの static メソッドiceCube.uhe.propagation.MainRun
main(String[]) - クラスの static メソッドiceCube.uhe.propagation.MainRun2
main(String[]) - クラスの static メソッドiceCube.uhe.propagation.MainRunBHevap
main(String[]) - クラスの static メソッドiceCube.uhe.propagation.MainRunZeus
main(String[]) - クラスの static メソッドiceCube.uhe.propagation.MakePropMtxTableByFactory
main(String[]) - クラスの static メソッドiceCube.uhe.propagation.MakePropMtxTableFlavorByFactory
main(String[]) - クラスの static メソッドiceCube.uhe.propagation.RunNeutrinoQuickPropagator
main(String[]) - クラスの static メソッドnumRecipes.CheckKSTest: A main method for test.
main(String[]) - クラスの static メソッドnumRecipes.FeldmanCousins: The simple main method - display the 90% C.L. interval for the Poisson signal mean.
main(String[]) - クラスの static メソッドnumRecipes.IntegrationDemo
main(String[]) - クラスの static メソッドnumRecipes.InterpolationDemo
main(String[]) - クラスの static メソッドnumRecipes.InterpolationDemo2
main(String[]) - クラスの static メソッドnumRecipes.PoissonBinnedLikelihoodCalculator: A simple main method
main(String[]) - クラスの static メソッドnumRecipes.PoissonBinnedLikelihoodRatioTest: A simple main method
main(String[]) - クラスの static メソッドnumRecipes.Pvalue2SigmaConverter
main(String[]) - クラスの static メソッドnumRecipes.PvalueCalculator
main(String[]) - クラスの static メソッドnumRecipes.PvalueCalculatorWithSignal
main(String[]) - クラスの static メソッドnumRecipes.RandomGeneratorDemo
main(String[]) - クラスの static メソッドnumRecipes.RandomGeneratorTest
main(String[]) - クラスの static メソッドnumRecipes.RandomGeneratorTest2
main(String[]) - クラスの static メソッドnumRecipes.SpecialFunctionsDemo
MainRun - iceCube.uhe.propagation のクラス
MainRun() - クラスのコンストラクタiceCube.uhe.propagation.MainRun
MainRun2 - iceCube.uhe.propagation のクラス
MainRun2() - クラスのコンストラクタiceCube.uhe.propagation.MainRun2
MainRunBHevap - iceCube.uhe.propagation のクラス
MainRunBHevap() - クラスのコンストラクタiceCube.uhe.propagation.MainRunBHevap
MainRunZeus - iceCube.uhe.propagation のクラス
MainRunZeus() - クラスのコンストラクタiceCube.uhe.propagation.MainRunZeus
MakeBootstrapBGSpectrum - iceCube.uhe.analysis のクラス
MakeBootstrapBGSpectrum() - クラスのコンストラクタiceCube.uhe.analysis.MakeBootstrapBGSpectrum
MakeBremsstrahlungMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of Bremsstrahlung Distribution Interactions
MakeBremsstrahlungMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakeBremsstrahlungMtx
makeCollectionOfLogLikelihoodRatio(int) - クラスのメソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: Calculate collections of the log likelihhood ratio alternative (calBG + model stored in calSignalSetsList (+ nuisance ) with parameters to maximize Likelihood)/ null hypothesis(calBG + calSignal with a given neutrino parameter (+ nuisance to maximize likelihood)) by running replica experiments.
makeCollectionOfLogLikelihoodRatio(int, int) - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: make a list collection of the log-likelihood -log(binned Poisson pdf) obtained by running the replica experiment by runTimes under the null hypothesis of bg + neutrino model (+ nuisance signal) The likeliihood ratio type is following: 1 saturated likelihood/null hypothesis(bg + model signal (+ nuisance)) 2 alternative hypothesis(bg + model signal with floated normalization)/null hypothesis(bg + model signal (+ nuisance)) 3 saturated likelihood/alternative hypothesis (bg + model signal with floated normalization) 4 (bg + nuisance model signal with floated normalization)/(bg + model signal with floated normalization) 5 alternative hypothesis(bg + either signal or nuisance model with floated normalization, select the one giving larger likelihood)/null hypothesis(bg ONLY) 6 (bg + nuisance model signal with floated normalization + signal with floated norm)/ (bg + model signal with floated normalization)
makeCollectionOfLogLikelihoodRatio(double, int) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodRatioTest: make a list collection of the log-likelihood ratio obtained by running the replica experiment by runTimes under the null (background-only) hypothesis.
makeCollectionOfLogLikelihoodRatioAlternative(double, int) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodRatioTest: make a list collection of the log-likelihood ratio obtained by running the replica experiment by runTimes under the algernative (signal) hypothesis.
MakeCosmicRayFluxTable - iceCube.uhe.muonModel のクラス: This class implements the main method to run PropagatingAtmMuonFlux.getDFMuDLogCREDLogE(logCRE, logMuonE, cosZenith), dF^2/dLogEcrDlogEmu, to make the numerical table for IceCube downstream analysis.
MakeCosmicRayFluxTable() - クラスのコンストラクタiceCube.uhe.muonModel.MakeCosmicRayFluxTable
MakeEffAreaTable - iceCube.uhe.analysis のクラス: Calculate the in-ice effective area table by running I3ParticleFlux.getInIceEffectiveArea(double logEnergy, double cosZenith, int flavor, int doublet).
MakeEffAreaTable() - クラスのコンストラクタiceCube.uhe.analysis.MakeEffAreaTable
MakeElbertFluxTable - iceCube.uhe.muonModel のクラス
MakeElbertFluxTable() - クラスのコンストラクタiceCube.uhe.muonModel.MakeElbertFluxTable
MakeElbertFluxTableWithFixedEth - iceCube.uhe.muonModel のクラス
MakeElbertFluxTableWithFixedEth() - クラスのコンストラクタiceCube.uhe.muonModel.MakeElbertFluxTableWithFixedEth
MakeGlashowResonanceHadronicMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of Hadronic Glashow Resonance Interactions.
MakeGlashowResonanceHadronicMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakeGlashowResonanceHadronicMtx
MakeGlashowResonanceLeptonicMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of Leptonic Glashow Resonance Interactions
MakeGlashowResonanceLeptonicMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakeGlashowResonanceLeptonicMtx
makeHistogram() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Making historgram for drawing by "grafig" graphics package on Xfig.
makeItVisible() - クラスのメソッドiceCube.uhe.event.SwingRunIceTray
makeJaida1DHistogram(String, String, boolean, IHistogramFactory) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Make and Fill IHistogram1D by reading out the variables of I3Particles String option "logEnergy" : plot logE "logRecoEnergy" : plot logRecoEnergy "logNpe" : plot logNpe "cosZenith" : plot cos(Zenith Angle) "nDOMs" : plot numberOfDOMs "firstGuess" : plot beta - first guess quality boolean bootstrap false : default.
makeJaida1DHistogram(String, IHistogramFactory) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Histogram name is assinged by the default - same as "option"
makeJaida2DHistogram(String, String, boolean, IHistogramFactory) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Make and Fill IHistogram2D by reading out the variables of I3Particles String option "logE-Npe" : plot logE-logNpe "logECR-Npe" : plot log(Primary Cosmic Ray E)-logNpe "logECR-logE" : plot log(Primary Cosmic Ray E)-logE "logRecoE-Npe" : plot logRecoE-logNpe "logE-cosZenith" : plot logE-cosZenith "logNpe-cosZenith": plot logNpe-cosZenith "logNpe-CobZ" : plot logNpe-ConterOfBrightnessZ "CobR-CobZ" : plot CenterOfBrightness(sqrt(x^2+y^2))-ConterOfBrightnessZ boolean bootstrap false : default.
makeJaida2DHistogram(String, IHistogramFactory) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Histogram name is assinged by the default - same as "option"
makeJaidaHistogram(String) - クラスのメソッドiceCube.uhe.analysis.EnergyHistogramMaker: Make 2D Histogram string option : "inice-surface" - inice muon Vs surface muon "surface-primary" - surface muon Vs primary CR "inice-primary" - inice muon Vs primary CR
MakeJuliet4Gen2JaidaTree - iceCube.uhe.event のクラス
MakeJuliet4Gen2JaidaTree() - クラスのコンストラクタiceCube.uhe.event.MakeJuliet4Gen2JaidaTree
MakeKnockOnElectronsMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of KnockOnElectrons Distribution Interactions
MakeKnockOnElectronsMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakeKnockOnElectronsMtx
MakeNeutrinoBHevapMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of Neutrino Charged Interactions
MakeNeutrinoBHevapMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakeNeutrinoBHevapMtx
MakeNeutrinoChargeMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of Neutrino Charged Interactions
MakeNeutrinoChargeMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakeNeutrinoChargeMtx
MakeNeutrinoFluxTable - iceCube.uhe.neutrinoModel のクラス
MakeNeutrinoFluxTable() - クラスのコンストラクタiceCube.uhe.neutrinoModel.MakeNeutrinoFluxTable
MakeNeutrinoNeutralMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of Neutrino Neutrial-Current Interactions
MakeNeutrinoNeutralMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakeNeutrinoNeutralMtx
MakePairCreationFitMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of PairCreationFit Distribution Interactions
MakePairCreationFitMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakePairCreationFitMtx
MakePairCreationMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of PairCreation Distribution Interactions
MakePairCreationMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakePairCreationMtx
MakePairCreationTable - iceCube.uhe.interactions のクラス: Make the differential cross section table of Pair Creation Interactions.
MakePairCreationTable() - クラスのコンストラクタiceCube.uhe.interactions.MakePairCreationTable
MakePhotoNuclearFitMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of PhotoNuclearFit Interactions
MakePhotoNuclearFitMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakePhotoNuclearFitMtx
MakePhotoNuclearMtx - iceCube.uhe.interactions のクラス: Make the energy transfer matrix of PhotoNuclear Distribution Interactions
MakePhotoNuclearMtx() - クラスのコンストラクタiceCube.uhe.interactions.MakePhotoNuclearMtx
MakePhotoNuclearTable - iceCube.uhe.interactions のクラス: Make the differential cross section table of Photo-Nuclear Interactions.
MakePhotoNuclearTable() - クラスのコンストラクタiceCube.uhe.interactions.MakePhotoNuclearTable
MakePropMtxTableByFactory - iceCube.uhe.propagation のクラス: This class is to generate propagation matrix table in F2K format for offline IceCube analysis.
MakePropMtxTableByFactory() - クラスのコンストラクタiceCube.uhe.propagation.MakePropMtxTableByFactory
MakePropMtxTableFlavorByFactory - iceCube.uhe.propagation のクラス: This class is to generate propagation matrix table in F2K format for offline IceCube analysis.
MakePropMtxTableFlavorByFactory() - クラスのコンストラクタiceCube.uhe.propagation.MakePropMtxTableFlavorByFactory
MakeQuickPropagationYieldMap - iceCube.uhe.analysis のクラス: Calculate the neutrino detection yield by running QuickProrpagationMatrixFlux and Make a Map(log(Neutrino Energy) Map(cross section, yield)).
MakeQuickPropagationYieldMap() - クラスのコンストラクタiceCube.uhe.analysis.MakeQuickPropagationYieldMap
massE - クラスの static 変数iceCube.uhe.interactions.GlashowResonanceLeptonic: mass of Electron [GeV]
massW - クラスの static 変数iceCube.uhe.interactions.GlashowResonanceLeptonic: mass of W [GeV]
matrix - クラスの変数iceCube.uhe.analysis.PropagationMatrixFlux
matrix - クラスの変数iceCube.uhe.propagation.NeutrinoQuickPropagator: Propagation Matrix to handle the charged lepton propgation after the neutrino interaction
matrixFile - クラスの static 変数iceCube.uhe.propagation.NeutrinoQuickPropagator
matrixFileName - クラスの static 変数iceCube.uhe.analysis.I3ParticleWeightFiller: Data file names of the calculated propagation matricis.
max2CobZ - クラスの変数iceCube.uhe.analysis.Criteria
maxCobZ - クラスの変数iceCube.uhe.analysis.Criteria
maxCobZ - クラスの変数iceCube.uhe.analysis.CriteriaIC22
maximizedNuisanceFactor - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
maximizedSignalFactor - クラスの変数iceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
maxLogE - クラスの変数iceCube.uhe.analysis.EnergyHistogramMaker
maxLogE - クラスの変数iceCube.uhe.analysis.PropagationMatrixDrawer
maxLogEFlux - クラスの変数iceCube.uhe.analysis.YieldAnalysisFactory: Range of the log(neutrino energy flux [GeV/cm^2 sec sr]) in the histogram
maxLogEnergy - クラスの static 変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
maxLogLikelihoodRatio - クラスの変数numRecipes.PoissonBinnedLikelihoodRatioFactory: maximized likelihood ratio log(L/L0)
maxLogNpe - クラスの static 変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
maxLogSigmaCC - クラスの変数iceCube.uhe.analysis.YieldAnalysisFactory: Range of the log(neutrino Charged Current cross section [cm^2]) in the histogram
maxNumberOfMuEThSteps - クラスの static 変数iceCube.uhe.muonModel.ElbertFluxTableFactory: Number of bins of the Muon Energy Threshold in the table
maxNumberOfVertex - クラスの変数iceCube.uhe.analysis.Criteria: maximum number of the vertex points on the logNpe-cosTheta plane to define the EHE super cut
maxNumberOfVertex - クラスの変数iceCube.uhe.analysis.CriteriaIC22
mcArea - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory: Area where juliet particles are thrown in the MC simulation .
mcArea - クラスの変数iceCube.uhe.analysis.I3ParticleFlux: Area where juliet particles are thrown in the MC simulation .
mcCorsikaArea - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory: Area of the Corsika MMC particles are thrown
mcCorsikaOmega - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory: Solid angle of the Corsika mmc particles
mcOmega - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory: Solid angle where juliet particles are thrown in the MC simulation
mcOmega - クラスの変数iceCube.uhe.analysis.I3ParticleFlux: Solid angle where juliet particles are thrown in the MC simulation
MergeI3Particles - iceCube.uhe.analysis のクラス
MergeI3Particles() - クラスのコンストラクタiceCube.uhe.analysis.MergeI3Particles
min2CobZ - クラスの変数iceCube.uhe.analysis.Criteria
min2CobZ - クラスの変数iceCube.uhe.analysis.CriteriaIC22
minCobZ - クラスの変数iceCube.uhe.analysis.Criteria
minCobZ - クラスの変数iceCube.uhe.analysis.CriteriaIC22
minLogE - クラスの変数iceCube.uhe.analysis.EnergyHistogramMaker
minLogE - クラスの変数iceCube.uhe.analysis.PropagationMatrixDrawer
minLogEFlux - クラスの変数iceCube.uhe.analysis.YieldAnalysisFactory
minLogEnergy - クラスの static 変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
minLogNpe - クラスの static 変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
minLogNPEToAnalize - クラスの static 変数iceCube.uhe.analysis.I3ParticleAnalysisFactory: The lowest level Requirement of NPEs.
minLogNPEToFill - クラスの static 変数iceCube.uhe.analysis.I3ParticleFlux: The lowest level Requirement of NPEs.
minLogNumberOfEvents - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
minLogSigmaCC - クラスの変数iceCube.uhe.analysis.YieldAnalysisFactory
minNDOMsInEHESuperCut - クラスの変数iceCube.uhe.analysis.Criteria
minNDOMsToAnalize - クラスの static 変数iceCube.uhe.analysis.I3ParticleAnalysisFactory: The lowest level Requirement of NDOMs.
minNDOMsToFill - クラスの static 変数iceCube.uhe.analysis.I3ParticleFlux: The lowest level Requirement of NDOMs.
minNDOMsToFill - クラスの static 変数iceCube.uhe.analysis.I3ParticleWeightFiller: A minimum threshold to fill weights.
MixBits(long, long) - クラスのメソッドnumRecipes.RandomDouble
Mmuon - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
ModelNormalizationCalculatorByPoissonBinnedLikelihood - iceCube.uhe.analysis のクラス: Calculate the p-value on a given neutrino model based on the binned Poisson likelihood.
ModelNormalizationCalculatorByPoissonBinnedLikelihood() - クラスのコンストラクタiceCube.uhe.analysis.ModelNormalizationCalculatorByPoissonBinnedLikelihood
modelNumber - クラスの変数iceCube.uhe.analysis.BHevapPropagationMatrixFlux
modelNumber - クラスの変数iceCube.uhe.interactions.NeutrinoBHevaporation
ModelParaPvalueCalculatorByPoissonBinnedLH - iceCube.uhe.analysis のクラス: Calculate the p-value on given neutrino model parameters based on the binned Poisson likelihood for estimating the confidence interval.
ModelParaPvalueCalculatorByPoissonBinnedLH(PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator, List) - クラスのコンストラクタiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: constructor: PoissonBinnedLikelihoodCalculator calBG :for the atmospheric background PoissonBinnedLikelihoodCalculator calSignal :for the neutrino model with the parmeters to be tested PoissonBinnedLikelihoodCalculator calNuisanceSingal:for the nuisance signal - like E^-2 against the GZK test List calSignalSetsList : A container to store PoissonBinnedLikelihoodCalculator objects of the signal hypothesis but with all the parameter values allowd in their range.
ModelParaPvalueCalculatorByPoissonBinnedLH(PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator, List) - クラスのコンストラクタiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: constructor for no nuislance case: PoissonBinnedLikelihoodCalculator calBG :for the atmospheric background PoissonBinnedLikelihoodCalculator calSignal :for the neutrino model with the parmeters to be tested List calSignalSetsList : A container to store PoissonBinnedLikelihoodCalculator objects of the signal hypothesis but with all the parameter values allowd in their range.
ModelParaPvalueCalculatorByPoissonBinnedLH(PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator, Map) - クラスのコンストラクタiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: constructor: PoissonBinnedLikelihoodCalculator calBG :for the atmospheric background PoissonBinnedLikelihoodCalculator calSignal :for the neutrino model with the parmeters to be tested PoissonBinnedLikelihoodCalculator calNuisanceSingal:for the nuisance signal - like E^-2 against the GZK test Map calSignalMap : A container to store PoissonBinnedLikelihoodCalculator objects of the signal hypothesis but with all the parameter values allowd in their range.
ModelParaPvalueCalculatorByPoissonBinnedLH(PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator, Map) - クラスのコンストラクタiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: constructor for no nuislance case: PoissonBinnedLikelihoodCalculator calBG :for the atmospheric background PoissonBinnedLikelihoodCalculator calSignal :for the neutrino model with the parmeters to be tested Map calSignalMap : A container to store PoissonBinnedLikelihoodCalculator objects of the signal hypothesis but with all the parameter values allowd in their range.
ModelPvalueCalculatorByPoissonBinnedLikelihood - iceCube.uhe.analysis のクラス: Calculate the p-value on a given neutrino model based on the binned Poisson likelihood.
ModelPvalueCalculatorByPoissonBinnedLikelihood() - クラスのコンストラクタiceCube.uhe.analysis.ModelPvalueCalculatorByPoissonBinnedLikelihood
modelRejectHisto - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: Histogram to store the model rejection factor
ModelTestByPoissonBinnedLikelihoodFactory - iceCube.uhe.analysis のクラス: A collection of the methods for the GZK (or astro) neutrino model tests based upon the likelihood ratio of the poisson binned likelihood.
ModelTestByPoissonBinnedLikelihoodFactory(PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator) - クラスのコンストラクタiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: The default constructor.
ModelTestByPoissonBinnedLikelihoodFactory(PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator) - クラスのコンストラクタiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: The default constructor.
ModelULCalculatorByPoissonBinnedLikelihood - iceCube.uhe.analysis のクラス: Calculate the upper limit of normalization on a given neutrino model based on the binned Poisson likelihood.
ModelULCalculatorByPoissonBinnedLikelihood() - クラスのコンストラクタiceCube.uhe.analysis.ModelULCalculatorByPoissonBinnedLikelihood
MonteCarloBase - iceCube.uhe.event のクラス: This is the abstract class to define the methods for both intereactions and decay that determines the pathlength and produced energy with the Monte Carlo method.
MonteCarloBase() - クラスのコンストラクタiceCube.uhe.event.MonteCarloBase
moveLineVectorToPlane(J3Line, J3UnitVector, J3Vector) - クラスの static メソッドgeometry.J3Utility: Move the line vector to where it crosses a plane with a fixed point vector rPlane and plane direction nPlane
moveParticleAxis(double) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: move the propagating axis by given slant depth [g/cm^2]
moveParticleAxis(double) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: move the propagating axis by given slant depth [g/cm^2]
Mp - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction: constatnts of the particle (physics)
Mpc - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction: Mpc unit
Mpi - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
mThPolynominalInterpolate(double[], double[], int, double, int) - クラスの static メソッドnumRecipes.Interpolation: Interpolate with mTh pylinominal function.
MUDECAY_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix
MuDecayBase - iceCube.uhe.decay のクラス: The MuDecayBase class to treat mu decay same as interactions for Event class.
MuDecayBase(MuDecayYMatrix) - クラスのコンストラクタiceCube.uhe.decay.MuDecayBase: Constructor for making the tables of lifetime and cumulative table.
MuDecayMatrix - iceCube.uhe.decay のクラス: Matrix of the Energy Transfer by the mu decays The matrix elements are calculated by the methods supplied by the Decay class. /------------------------------------------------------------\ logEmin | 0 0 ...................................
MuDecayMatrix(Particle) - クラスのコンストラクタiceCube.uhe.decay.MuDecayMatrix: Constructor: Generate the matrix array
MuDecayMatrixDemo - iceCube.uhe.decay のクラス: Make the mu decay matrix and calculate some numbers derived by it.
MuDecayMatrixDemo() - クラスのコンストラクタiceCube.uhe.decay.MuDecayMatrixDemo
MuDecayYMatrix - iceCube.uhe.decay のクラス: Matrix of the Energy Transfer dN/dLogY by the mu decays The matrix elements are calculated by the methods supplied by the Decay class.
MuDecayYMatrix(Particle) - クラスのコンストラクタiceCube.uhe.decay.MuDecayYMatrix: Constructor: Generate the matrix array
MuDecayYMatrixDemo - iceCube.uhe.decay のクラス: Make the mu decay matrix and calculate some numbers derived by it.
MuDecayYMatrixDemo() - クラスのコンストラクタiceCube.uhe.decay.MuDecayYMatrixDemo
muEth - クラスの変数iceCube.uhe.analysis.EnergyHistogramMaker
muEThBin - クラスの変数iceCube.uhe.muonModel.ElbertFluxTableFactory
muEThMin - クラスの変数iceCube.uhe.muonModel.ElbertFluxTableFactory
muEThresholdReference - クラスの変数iceCube.uhe.muonModel.RelativeElbertFluxTableMaker
muEThStepSize - クラスの変数iceCube.uhe.muonModel.ElbertFluxTableFactory
multipleFactor(double, J3Vector) - クラスの static メソッドgeometry.J3Vector: calculate scalor x vector fxa
multiplicity_table_model1 - クラスの変数iceCube.uhe.interactions.NeutrinoBHevaporation: mutiplicity table in the BH model for model 1
multiplicity_table_model2 - クラスの変数iceCube.uhe.interactions.NeutrinoBHevaporation: mutiplicity table in the BH model for model 2
muOld - クラスの static 変数numRecipes.RandomGenerator
muonBeta - クラスの static 変数iceCube.uhe.analysis.AtmMuonBundleFitter
muonBundle - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory: AtmMuonBundleFlux object for calculating the primary cosmic ray energy
muToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
muToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
muToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
muToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
muToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
muToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
muToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix

N

NA - クラスの static 変数iceCube.uhe.points.ParticlePoint: Avogadro's Number.
nBackgroundRelMax - クラスの static 変数numRecipes.FeldmanCousins
nBackgroundRelMin - クラスの static 変数numRecipes.FeldmanCousins: Relative Background uncertainties
NeutEventMonoEnergyFlux - iceCube.uhe.event のクラス: This class calculates differential flux dF/dLogE [/cm^2 sec sr] of muons/taus as a function of emg/hadron cascade energy deposited in the detector volume expected from a neutrino flux with monochromatic energy E^2dF/dE = 10^-9 GeV/cm^2 sec sr.
NeutEventMonoEnergyFlux(DataInputStream) - クラスのコンストラクタiceCube.uhe.event.NeutEventMonoEnergyFlux: Constructor.
NeutEventRate - iceCube.uhe.event のクラス
NeutEventRate() - クラスのコンストラクタiceCube.uhe.event.NeutEventRate
NEUTRAL_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix
NeutrinoBHevaporation - iceCube.uhe.interactions のクラス: The Neutrino nucleon interactions to produce micro black holes and its evapolation.
NeutrinoBHevaporation(Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.NeutrinoBHevaporation: Constructor: Register the Particle and ParticlePoint classes.
NeutrinoBHevaporationMatrix - iceCube.uhe.interactions のクラス
NeutrinoBHevaporationMatrix(NeutrinoBHevaporation) - クラスのコンストラクタiceCube.uhe.interactions.NeutrinoBHevaporationMatrix: Constructor: Generate the matrix array
NeutrinoCharge - iceCube.uhe.interactions のクラス: The Neutrino-isoscalar nucleon charged current interactions taking place in undergound rock and ice are calculated in this subclass.
NeutrinoCharge(Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.NeutrinoCharge: Constructor: Register the Particle and ParticlePoint classes.
NeutrinoChargeDemo - iceCube.uhe.interactions のクラス: NeutrinoCharge.class Demo program
NeutrinoChargeDemo() - クラスのコンストラクタiceCube.uhe.interactions.NeutrinoChargeDemo
NeutrinoChargeZeusPDF - iceCube.uhe.interactions のクラス: The Neutrino-isoscalar nucleon charged current interactions taking place in undergound rock and ice are calculated in this subclass.
NeutrinoChargeZeusPDF(Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.NeutrinoChargeZeusPDF: Constructor: Register the Particle and ParticlePoint classes.
neutrinoCSHERAZeus - クラスの変数iceCube.uhe.event.JulietEventGenerator4Gen2
NeutrinoEffAreaTable - iceCube.uhe.analysis のクラス: Neutrino Effective Area is calculated from the numerical table stored in the classes/iceCube/uhe/analysis.
NeutrinoEffAreaTable(boolean) - クラスのコンストラクタiceCube.uhe.analysis.NeutrinoEffAreaTable: Constructor.
neutrinoEnergyMax - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: The maximum neutrino energy [GeV]
NeutrinoExposureTable - iceCube.uhe.analysis のクラス: Neutrino Exposure [cm^2 sec sr] is calculated from the numerical table stored in the classes/iceCube/uhe/analysis.
NeutrinoExposureTable(boolean) - クラスのコンストラクタiceCube.uhe.analysis.NeutrinoExposureTable: Constructor.
NeutrinoExposureTableHESE - iceCube.uhe.analysis のクラス: Neutrino Exposure by the HESE analysis [cm^2 sec sr] is calculated from the numerical table stored in the classes/iceCube/uhe/analysis.
NeutrinoExposureTableHESE(boolean) - クラスのコンストラクタiceCube.uhe.analysis.NeutrinoExposureTableHESE: Constructor.
neutrinoFactor - クラスの static 変数iceCube.uhe.interactions.GlashowResonanceBase: In order to save CPU time, we increase neutrino cross section by this factor.
neutrinoFactor - クラスの static 変数iceCube.uhe.interactions.InteractionsBase: In order to save CPU time, we increase neutrino cross section by this factor.
NeutrinoFlux - iceCube.uhe.neutrinoModel のクラス: UHE Neutrino fluxes based on the following moels are calculated from the table.
NeutrinoFlux(int) - クラスのコンストラクタiceCube.uhe.neutrinoModel.NeutrinoFlux: Constructor: Reads out from the table stored in iceCube/uhe/neutrinoModel logE [eV] dF/dE E^2 [eV/cm^2 sec sr].
NeutrinoFluxFromSource - iceCube.uhe.neutrinoModel のクラス: Calculate the source neutrino flux by the analytical functions
NeutrinoFluxFromSource(double) - クラスのコンストラクタiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: The constructor: set the opetical depth
NeutrinoFluxFromSource(double, double) - クラスのコンストラクタiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: The constructor: set the refeerence energy and opetical depth
NeutrinoFluxFromSource() - クラスのコンストラクタiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
NeutrinoFluxFunction - iceCube.uhe.neutrinoModel のクラス: Calculate the cosmic neutrino flux by the analytical functions.
NeutrinoFluxFunction() - クラスのコンストラクタiceCube.uhe.neutrinoModel.NeutrinoFluxFunction: The defult constructor
NeutrinoFluxFunctionEnergetics - iceCube.uhe.neutrinoModel のクラス: Calculate the GZK neutrino flux by the energetics argument
NeutrinoFluxFunctionEnergetics() - クラスのコンストラクタiceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics
NeutrinoNeutral - iceCube.uhe.interactions のクラス: The Neutrino-isoscalar nucleon neutral current interactions taking place in undergound rock and ice are calculated in this subclass.
NeutrinoNeutral(Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.NeutrinoNeutral: Constructor: Register the Particle and ParticlePoint classes.
NeutrinoNeutralZeusPDF - iceCube.uhe.interactions のクラス: The Neutrino-isoscalar nucleon charged current interactions taking place in undergound rock and ice are calculated in this subclass.
NeutrinoNeutralZeusPDF(Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.NeutrinoNeutralZeusPDF: Constructor: Register the Particle and ParticlePoint classes.
NeutrinoQuickPropagator - iceCube.uhe.propagation のクラス: This class provides the methods to cauculate energy distribution of particles resulted from the neutrino propagation in the handy approximated way.
NeutrinoQuickPropagator(ParticlePoint) - クラスのコンストラクタiceCube.uhe.propagation.NeutrinoQuickPropagator: Constructor.
nextDouble() - クラスのメソッドnumRecipes.RandomDouble: generates a random number on (0,1)-real-interval
nextState() - クラスのメソッドnumRecipes.RandomDouble
northing - クラスの static 変数iceCube.uhe.geometry.IceCubeCoordinate: Nothing of the origin in the horizontal plane.
npeBinWidth - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder: energy bin width
NPEthresholdOptimizer - iceCube.uhe.analysis のクラス: Optimize NPE threshold to minimize either the model rejection potential or the signal discovery potential.
NPEthresholdOptimizer(int, double, double, int, double, double) - クラスのコンストラクタiceCube.uhe.analysis.NPEthresholdOptimizer: Constructor.
NPEthresholdOptimizer() - クラスのコンストラクタiceCube.uhe.analysis.NPEthresholdOptimizer: Constructor.
nuBH - クラスの変数iceCube.uhe.analysis.BHevapPropagationMatrixFlux
nuBHMtx - クラスの変数iceCube.uhe.propagation.PropagationMatrixBHevaporation
nuBHMtxObjectFile - クラスの変数iceCube.uhe.propagation.PropagationMatrixBHevaporation
nuCCEnhancementFactor - クラスの変数iceCube.uhe.analysis.QuickPropagationMatrixFlux
nuCCEnhancementFactor - クラスの変数iceCube.uhe.propagation.NeutrinoQuickPropagator
nuCCMtx - クラスの変数iceCube.uhe.analysis.BHevapPropagationMatrixFlux
nuCCMtx - クラスの変数iceCube.uhe.analysis.QuickNCPropagationMatrixFlux
nuCCMtx - クラスの変数iceCube.uhe.analysis.YieldAnalysisFactory: Neutrino InteractionMatrix object to calculate the STANDARD cross section
nuCCMtx - クラスの変数iceCube.uhe.propagation.NeutrinoQuickPropagator: The default neutrino matrix charged current interaction to generate the charged lepton
nuCCMtxObjectFile - クラスの static 変数iceCube.uhe.analysis.MakeQuickPropagationYieldMap
nuCCMtxObjectFile - クラスの static 変数iceCube.uhe.propagation.PropagationMatrixZeus
nuE - クラスの変数iceCube.uhe.analysis.PropagationMatrixFlux
nuEToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuEToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuEToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuEToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuEToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuEToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuEToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
numberOfAlphaSteps - クラスの static 変数iceCube.uhe.muonModel.ElbertFluxTableFactory: Number of bins of the alpha in the table
numberOfBins - クラスの変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
numberOfBinsNPE - クラスの変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
numberOfBinsRecoE - クラスの変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
numberOfCosZenith - クラスの変数iceCube.uhe.muonModel.RelativeElbertFluxTableMaker
numberOfDistance - クラスの static 変数iceCube.uhe.muonModel.ElbertFluxTableFactory
NumberOfDoublet - クラスの static 変数iceCube.uhe.particles.Particle: Number of the "Doublet" valuables to define the particle.
numberOfEmuon - クラスの変数iceCube.uhe.muonModel.ElbertFluxTableFactory
numberOfEventCategory - クラスの static 変数iceCube.uhe.analysis.Criteria: number of the event category
numberOfFilledI3Particles - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
NumberOfFlavor - クラスの static 変数iceCube.uhe.particles.Particle: Number of the "Flavor" valuables to define the particle.
numberOfMuEThSteps - クラスの変数iceCube.uhe.muonModel.ElbertFluxTableFactory
numberOfObservedEvents - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder: number of observed events
NumberOfSpecies - クラスの static 変数iceCube.uhe.points.ParticlePoint: Number of Species of Atom. 2 for Ice (H and O) and 1 for Rock.
numberOfVertex - クラスの変数iceCube.uhe.analysis.Criteria: number of the vertex points on the logNpe-cosTheta plane set by the method setEHESuperCut()
numRecipes - パッケージ numRecipes
nuMu - クラスの変数iceCube.uhe.analysis.PropagationMatrixFlux
nuMuToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuMuToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuMuToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuMuToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuMuToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuMuToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuMuToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuNCEnhancementFactor - クラスの変数iceCube.uhe.analysis.QuickNCPropagationMatrixFlux
nuNCMtx - クラスの変数iceCube.uhe.analysis.BHevapPropagationMatrixFlux
nuNCMtx - クラスの変数iceCube.uhe.analysis.QuickNCPropagationMatrixFlux
nuNCMtxObjectFile - クラスの static 変数iceCube.uhe.propagation.PropagationMatrixZeus
nuTau - クラスの変数iceCube.uhe.analysis.PropagationMatrixFlux
nuTauToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuTauToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuTauToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuTauToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuTauToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuTauToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
nuTauToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix

O

observationTime - クラスの変数iceCube.uhe.analysis.I3ParticleAnalysisFactory: Observation Time [sec]
observationTime - クラスの変数iceCube.uhe.analysis.I3ParticleFlux: Observation Time [sec]
observationTime - クラスの変数iceCube.uhe.analysis.I3ParticleIC22AnalysisFactory
observationTime - クラスの変数iceCube.uhe.analysis.PropagationMatrixFlux: Observation Time [sec]
observedEvents - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
observedEventsNPE - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder: the observed event cosZ and log(energy(or NPE))
observedEventsRecoE - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
omegaLambda - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
omegaM - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction: constants of the cosmology
optDepth - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
outputCreatedMap(OutputStream) - クラスのメソッドiceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
outputI3Particle(I3Particle, OutputStream) - クラスの static メソッドiceCube.uhe.particles.I3ParticleOutputStream
outputInteractionsMatrix(InteractionsMatrix, OutputStream) - クラスの static メソッドiceCube.uhe.interactions.InteractionsMatrixOutput
outputLikelihhoRatioList(ModelTestByPoissonBinnedLikelihoodFactory, OutputStream) - クラスの static メソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
outputMaximizedSignalFactorList(ModelTestByPoissonBinnedLikelihoodFactory, OutputStream) - クラスの static メソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory
outputParticle(Particle, OutputStream) - クラスの static メソッドiceCube.uhe.particles.ParticleOutputStream
outputPoissonBinnedLikelihoodCalculator(PoissonBinnedLikelihoodCalculator, OutputStream) - クラスの static メソッドnumRecipes.PoissonBinnedLikelihoodCalculator

P

paintComponent(Graphics) - クラスのメソッドiceCube.uhe.event.InteractionGraphics
paintComponent(Graphics) - クラスのメソッドiceCube.uhe.event.ParticleTravelGraphics
paintComponent(Graphics) - クラスのメソッドiceCube.uhe.event.TrackGeometryGraphics
PAIRC_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix
PAIRCH_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix
PairCreation - iceCube.uhe.interactions のクラス: The Pair Creation involving UHE leptons propagating undergound rock and ice are calculated in this subclass.
PairCreation(Particle, ParticlePoint, int) - クラスのコンストラクタiceCube.uhe.interactions.PairCreation: Constructor: Register the Particle and ParticlePoint classes
PairCreationDemo - iceCube.uhe.interactions のクラス: PairCreation.class Demo program
PairCreationDemo() - クラスのコンストラクタiceCube.uhe.interactions.PairCreationDemo
PairCreationFit - iceCube.uhe.interactions のクラス: The Pair Creation interactions taking place in undergound rock and ice are calculated in this subclass.
PairCreationFit(Particle, ParticlePoint, int) - クラスのコンストラクタiceCube.uhe.interactions.PairCreationFit: Constructor: Register the Particle and ParticlePoint classes.
parameterCutoffEnergy - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
parameterEnergyBase - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
parameterEnergyFluxAtBase - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
parameterEvolution - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
parameterPowerLawIndex - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
parameterRedshift - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
Particle - iceCube.uhe.particles のクラス: The Particle class to define their mass, names, flavors, lifetime It also provides the instance variables such as energy.
Particle(int, int) - クラスのコンストラクタiceCube.uhe.particles.Particle: Default initial energy 1EeV = 1.0e9 GeV
Particle(int, int, double) - クラスのコンストラクタiceCube.uhe.particles.Particle: Constructor for Checking the given flavor and doublet index.
ParticleArray - iceCube.uhe.particles のクラス: This class creates the objects of array "logEnergyMatrix" for all leptons (+ pions) defined by Particle.class.
ParticleArray() - クラスのコンストラクタiceCube.uhe.particles.ParticleArray
ParticleArrayDemo - iceCube.uhe.particles のクラス: ParticleArray.class Demo program.
ParticleArrayDemo() - クラスのコンストラクタiceCube.uhe.particles.ParticleArrayDemo
ParticleDemo - iceCube.uhe.particles のクラス: Particle.class Demo program.
ParticleDemo() - クラスのコンストラクタiceCube.uhe.particles.ParticleDemo
ParticleGroup - iceCube.uhe.particles のクラス: This class creates the objects for all leptons (+ pions) defined by Particle.class.
ParticleGroup() - クラスのコンストラクタiceCube.uhe.particles.ParticleGroup
ParticleGroup(double) - クラスのコンストラクタiceCube.uhe.particles.ParticleGroup
ParticleInputStream - iceCube.uhe.particles のクラス: The Object Particle is serialized and sent out to Outputstream
ParticleInputStream() - クラスのコンストラクタiceCube.uhe.particles.ParticleInputStream
particleMasses - クラスの static 変数iceCube.uhe.particles.Particle: Particle Mass [GeV]
particleName(int, int) - クラスの static メソッドiceCube.uhe.particles.Particle: Display the particle name.
ParticleOutputStream - iceCube.uhe.particles のクラス: The Object Particle is serialized and sent out to Outputstream
ParticleOutputStream() - クラスのコンストラクタiceCube.uhe.particles.ParticleOutputStream
ParticlePoint - iceCube.uhe.points のクラス: This class contains the variables and methods concerining the particle location and the propagation medium.
ParticlePoint(double, double, int) - クラスのコンストラクタiceCube.uhe.points.ParticlePoint: Constructor to initialize the starting point.
ParticleStreamDemo - iceCube.uhe.particles のクラス: Particle.class Demo program.
ParticleStreamDemo() - クラスのコンストラクタiceCube.uhe.particles.ParticleStreamDemo
ParticleTracker - iceCube.uhe.geometry のクラス: This class contains static methods concerning the particle tracking.
ParticleTracker() - クラスのコンストラクタiceCube.uhe.geometry.ParticleTracker
ParticleTravelGraphics - iceCube.uhe.event のクラス
pathname - クラスの static 変数iceCube.uhe.analysis.I3ParticleWeightFiller
pathname - クラスの static 変数iceCube.uhe.propagation.NeutrinoQuickPropagator
pathName - クラスの変数iceCube.uhe.propagation.PropagationMatrix
pblMap - クラスの変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder: map container for the poisson binned likelihood calculator objects
PHOTO_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix
PhotoNuclear - iceCube.uhe.interactions のクラス
PhotoNuclear(Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.PhotoNuclear: Constructor
PhotoNuclearDemo - iceCube.uhe.interactions のクラス: PhotoNuclear.class Demo program
PhotoNuclearDemo() - クラスのコンストラクタiceCube.uhe.interactions.PhotoNuclearDemo
PhotoNuclearFit - iceCube.uhe.interactions のクラス: The Photo Nuclear interactions taking place in undergound rock and ice are calculated in this subclass.
PhotoNuclearFit(Particle, ParticlePoint) - クラスのコンストラクタiceCube.uhe.interactions.PhotoNuclearFit: Constructor: Register the Particle and ParticlePoint classes.
piCMSEnergy - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
piCMSMomentum - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
piEnergyMinus - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
piEnergyPlus - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
plot() - クラスのメソッドiceCube.uhe.analysis.NPEthresholdOptimizer: Plot the model rejection factor and the signal discovery poteintial as a function of logNPE
PlotAllSpectrum - iceCube.uhe.analysis のクラス
PlotAllSpectrum() - クラスのコンストラクタiceCube.uhe.analysis.PlotAllSpectrum
plotByJointLine() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Plotting histogram by jointed-line
plotByPointsWithErrorBars() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Plotting histogram by points with error bars
PlotChi2ByJaidaHisto - iceCube.uhe.analysis のクラス
PlotChi2ByJaidaHisto() - クラスのコンストラクタiceCube.uhe.analysis.PlotChi2ByJaidaHisto
PlotCRSpectrum - iceCube.uhe.analysis のクラス
PlotCRSpectrum() - クラスのコンストラクタiceCube.uhe.analysis.PlotCRSpectrum
PlotEventNumberRatioByJaidaHisto - iceCube.uhe.analysis のクラス
PlotEventNumberRatioByJaidaHisto() - クラスのコンストラクタiceCube.uhe.analysis.PlotEventNumberRatioByJaidaHisto
PlotIC22BG2DSpectrum - iceCube.uhe.analysis のクラス
PlotIC22BG2DSpectrum() - クラスのコンストラクタiceCube.uhe.analysis.PlotIC22BG2DSpectrum
PlotIC22SIG2DSpectrum - iceCube.uhe.analysis のクラス
PlotIC22SIG2DSpectrum() - クラスのコンストラクタiceCube.uhe.analysis.PlotIC22SIG2DSpectrum
PlotIC22Spectrum - iceCube.uhe.analysis のクラス
PlotIC22Spectrum() - クラスのコンストラクタiceCube.uhe.analysis.PlotIC22Spectrum
PlotJuliet4Gen2JaidaTree - iceCube.uhe.event のクラス
PlotJuliet4Gen2JaidaTree() - クラスのコンストラクタiceCube.uhe.event.PlotJuliet4Gen2JaidaTree
PlotSpectrumByJaidaHisto - iceCube.uhe.analysis のクラス
PlotSpectrumByJaidaHisto() - クラスのコンストラクタiceCube.uhe.analysis.PlotSpectrumByJaidaHisto
poisson(double, long) - クラスの static メソッドnumRecipes.SpecialFunctions: Poisson distribution function
PoissonBinnedLHExtracter - numRecipes のクラス
PoissonBinnedLHExtracter() - クラスのコンストラクタnumRecipes.PoissonBinnedLHExtracter
PoissonBinnedLikelihoodCalculator - numRecipes のクラス: Calculate the binned Poisson Likelihood and its p-value for a series of (N_i, \mu_i) where N_i is the observed number and \mu_i is the predicted number at the i-th bin.
PoissonBinnedLikelihoodCalculator() - クラスのコンストラクタnumRecipes.PoissonBinnedLikelihoodCalculator: Constructor.
PoissonBinnedLikelihoodMapBuilder - iceCube.uhe.analysis のクラス: Build the Map to contain the PoissonBinnedLikelihoodCalculator reading from the f2k data via standard input.
PoissonBinnedLikelihoodMapBuilder(boolean, boolean) - クラスのコンストラクタiceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder: constructor
PoissonBinnedLikelihoodRatioFactory - numRecipes のクラス: Handle the ratio of the maximum likelihood ratio built from the binned Poisson.
PoissonBinnedLikelihoodRatioFactory(PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator) - クラスのコンストラクタnumRecipes.PoissonBinnedLikelihoodRatioFactory: The default constructor.
PoissonBinnedLikelihoodRatioTest - numRecipes のクラス: Perform test based upon the ratio of the maximum likelihood ratio built from the binned Poisson.
PoissonBinnedLikelihoodRatioTest(PoissonBinnedLikelihoodCalculator, PoissonBinnedLikelihoodCalculator) - クラスのコンストラクタnumRecipes.PoissonBinnedLikelihoodRatioTest: The default constructor.
poissonLogLikelihood - クラスの変数numRecipes.PoissonBinnedLikelihoodCalculator
poissonLogLikelihoodH0 - クラスの変数numRecipes.PoissonBinnedLikelihoodRatioFactory: log likelohood for the null hypothesis
poissonLogLikelihoodH1 - クラスの変数numRecipes.PoissonBinnedLikelihoodRatioFactory: log likelohood for the alternative hypothesis
polynominalInterpolate(double[], double[], double) - クラスの static メソッドnumRecipes.Interpolation: Given arrays xa[0....n-1] and ya[0....n-1], and given a value x, this method returns a value y by the polynominal interpolation.
PrintIntensityOnEvolutionZmaxPlane - iceCube.uhe.neutrinoModel のクラス
PrintIntensityOnEvolutionZmaxPlane() - クラスのコンストラクタiceCube.uhe.neutrinoModel.PrintIntensityOnEvolutionZmaxPlane
printLogLikelihood(boolean) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: print out the calculated Poisson binned log likelihood to the standard output
printLogLikelihood() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator
printResults() - クラスのメソッドiceCube.uhe.analysis.LDPcalculator: print out the calculated LDPs to the standard output
printSummaryOfCreatedMap() - クラスのメソッドiceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
printYield(double) - クラスのメソッドiceCube.uhe.analysis.YieldAnalysisFactory: Print the yield table the method readYieldTable reads out in the constructor for a given log(Neutrino Energy [GeV]) This method is mainly for debugging purposes.
probabilityFunction(double) - クラスの static メソッドnumRecipes.KSTest: Return the Kolmogorov-Smirnov probability Q_ks(lambda)
probabilityOfNobserved(double, double, long) - クラスの static メソッドnumRecipes.FeldmanCousins: Return the confidence level that the given number of observed events for the given signal and expected background.
process(DataInputStream, OutputStream, boolean) - クラスのメソッドiceCube.uhe.analysis.I3ParticleBuilder: the method to build I3Particle objects with data from the DataInputStream.
process(DataInputStream, OutputStream) - クラスのメソッドiceCube.uhe.analysis.I3ParticleMillipedeBuilder: the method to build I3Particle objects with data from the DataInputStream.
process(DataInputStream) - クラスのメソッドiceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
propagate() - クラスのメソッドiceCube.uhe.event.JulietTask: start the task to run a particle.
propagateChargedLepton() - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: propagate the charged leptons by the propagation matrix step size deltaX.
propagateDX() - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Propagate the particles involved over a dX [g/cm^2].
propagateDXpowered() - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Propagate the particles involved over a 2^n Delta x [g/cm^2] where Delta x is the propagation distance for the finite propagation matrix.
propagateNeutrino(double, double) - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: Calculation of the neutrino propagation with the methods of propagateNeutrinoToNeutrino() and propagateNeutrinoToLepton() double propagationDepth : the neutrino-lepton total propagation distance [g/cm^2]
propagateNeutrinoToIceCubeDepth(double, double) - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: Calculation of the neutrino propagation with the methods of propagateNeutrinoToNeutrino() and propagateNeutrinoToLepton() double nadirAngle : nadire (upgoing) zenith (down) of the neutrino-lepton track [deg] Note : nadir_angle must be registered in the ParticlePoint object member s
propagateNeutrinoToLepton(double, double, double, double) - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: Calculate the neutrino propagation generating leptons in the appriximated handy method.
propagateNeutrinoToNeutrino(double, double) - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: Calculate the neutrino propagation in the appriximated handy method.
propagateX() - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Propagate the particles involved over X [g/cm^2] where Delta x is the propagation distance for the finite propagation matrix.
PropagatingAtmMuonFlux - iceCube.uhe.muonModel のクラス: This class calculates differential flux dF/dLogE [/cm^2 sec sr] of neutrinos and charged leptons after propagation in the earth for a given model of primary cosmic neutrino production in the Universe.
PropagatingAtmMuonFlux() - クラスのコンストラクタiceCube.uhe.muonModel.PropagatingAtmMuonFlux: Constructor
PropagatingAtmMuonFlux(double, boolean) - クラスのコンストラクタiceCube.uhe.muonModel.PropagatingAtmMuonFlux: Constructor
PropagatingAtmMuonFlux(double, double, boolean) - クラスのコンストラクタiceCube.uhe.muonModel.PropagatingAtmMuonFlux: Constructor
PropagatingNeutrinoFlux - iceCube.uhe.neutrinoModel のクラス: This class calculates differential flux dF/dLogE [/cm^2 sec sr] of neutrinos and charged leptons after propagation in the earth for a given model of primary cosmic neutrino production in the Universe.
PropagatingNeutrinoFlux(int) - クラスのコンストラクタiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Constructor
PropagatingNeutrinoFlux(int, boolean) - クラスのコンストラクタiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: This constroctor is for the subclass QuickPropagatingNeutrinoFlux
PropagationMatrix - iceCube.uhe.propagation のクラス: Matrix of the Energy and particle spiecies Transfer by the Interactions and Particle Decays.
PropagationMatrix(Particle, Particle, Particle, Particle, Particle, Particle, Particle, ParticlePoint, int, int, double, String, String) - クラスのコンストラクタiceCube.uhe.propagation.PropagationMatrix: Constructor.
PropagationMatrix(Particle, Particle, Particle, Particle, Particle, Particle, Particle, ParticlePoint, int, int, double) - クラスのコンストラクタiceCube.uhe.propagation.PropagationMatrix: Constructor.
PropagationMatrix(Particle, Particle, Particle, Particle, Particle, Particle, Particle, ParticlePoint, int, int, String, String) - クラスのコンストラクタiceCube.uhe.propagation.PropagationMatrix: Constructor.
PropagationMatrix(Particle, Particle, Particle, Particle, Particle, Particle, Particle, ParticlePoint, int, int) - クラスのコンストラクタiceCube.uhe.propagation.PropagationMatrix: Constructor.
PropagationMatrixBHevaporation - iceCube.uhe.propagation のクラス: Propagation Matrix containing the neutrino interaction channel via the micro black hole creation-evaporation.
PropagationMatrixBHevaporation(Particle, Particle, Particle, Particle, Particle, Particle, Particle, ParticlePoint, int, int, int) - クラスのコンストラクタiceCube.uhe.propagation.PropagationMatrixBHevaporation: Constructor.
PropagationMatrixDrawer - iceCube.uhe.analysis のクラス: This class makes a 2D/1D histogram of Energy correlations of In-ice Energy Vs Surface Energy (using PropagationMatrixFactory.java in the propahgation package) Written by S.
PropagationMatrixDrawer() - クラスのコンストラクタiceCube.uhe.analysis.PropagationMatrixDrawer: Default Constructor
PropagationMatrixFactory - iceCube.uhe.propagation のクラス: This class handles the generated propagation matrix data.
PropagationMatrixFactory() - クラスのコンストラクタiceCube.uhe.propagation.PropagationMatrixFactory: Default constructor.
PropagationMatrixFactory(boolean) - クラスのコンストラクタiceCube.uhe.propagation.PropagationMatrixFactory: This constructor is for subclass such as ExtendedMuonPropMatrixFactory
PropagationMatrixFlux - iceCube.uhe.analysis のクラス: It calculates the detectable neutrino event intensity at the Earth Surface as I3ParticleFlux does but the calculation is made by using directly the zenith angle binned propagation matrix and the numerically calculated effective area (I3EffectiveArea.java) without relying on I3Particle MC events.
PropagationMatrixFlux() - クラスのコンストラクタiceCube.uhe.analysis.PropagationMatrixFlux: Constructor.
PropagationMatrixFlux(boolean) - クラスのコンストラクタiceCube.uhe.analysis.PropagationMatrixFlux: Constroctor for the subclass.
PropagationMatrixZeus - iceCube.uhe.propagation のクラス: PropagationMatrix using the Zeus based neutrino-nucleon cross section
PropagationMatrixZeus(Particle, Particle, Particle, Particle, Particle, Particle, Particle, ParticlePoint, int, int, double) - クラスのコンストラクタiceCube.uhe.propagation.PropagationMatrixZeus
PropagationMatrixZeus(Particle, Particle, Particle, Particle, Particle, Particle, Particle, ParticlePoint, int, int) - クラスのコンストラクタiceCube.uhe.propagation.PropagationMatrixZeus
propagator - クラスの変数iceCube.uhe.analysis.QuickNCPropagationMatrixFlux
propagator - クラスの変数iceCube.uhe.analysis.QuickPropagationMatrixFlux
propagator - クラスの変数iceCube.uhe.neutrinoModel.QuickPropagatingNeutrinoFlux: Neutrino Quick Propagator
propLeptonFlux - クラスの変数iceCube.uhe.event.EventFlux
propMtxPathname - クラスの static 変数iceCube.uhe.analysis.BHevapPropagationMatrixFlux
propMuonFlux - クラスの変数iceCube.uhe.event.EventAtmMuonFlux
putDeltaLogEnergy(double) - クラスのメソッドiceCube.uhe.particles.Particle
putDimensionOfLogEnergyMatrix(int) - クラスのメソッドiceCube.uhe.particles.Particle
putEnergy(double) - クラスのメソッドiceCube.uhe.particles.Particle
putLogEnergy(double) - クラスのメソッドiceCube.uhe.particles.Particle
putLogEnergyMatrix(double, double) - クラスのメソッドiceCube.uhe.particles.Particle
putLogEnergyMatrix(int, double) - クラスのメソッドiceCube.uhe.particles.Particle
putLogEnergyMinimum(double) - クラスのメソッドiceCube.uhe.particles.Particle
putRecoEnergy(double) - クラスのメソッドiceCube.uhe.particles.I3Particle: put the energy estimated by a reconstruction program
putVector(J3Vector) - クラスのメソッドgeometry.J3Vector: put a new vector a = b
Pvalue2SigmaConverter - numRecipes のクラス
Pvalue2SigmaConverter() - クラスのコンストラクタnumRecipes.Pvalue2SigmaConverter
PvalueCalculator - numRecipes のクラス: Display the SpecialFunctions
PvalueCalculator() - クラスのコンストラクタnumRecipes.PvalueCalculator
PvalueCalculatorWithSignal - numRecipes のクラス: Display the SpecialFunctions
PvalueCalculatorWithSignal() - クラスのコンストラクタnumRecipes.PvalueCalculatorWithSignal

Q

QuickNCPropagationMatrixFlux - iceCube.uhe.analysis のクラス: It calculates the detectable neutrino event intensity at the Earth Surface as I3ParticleFlux does but the calculation is made by using directly the zenith angle binned propagation matrix and the numerically calculated effective area (I3EffectiveArea.java) without relying on I3Particle MC events.
QuickNCPropagationMatrixFlux(double) - クラスのコンストラクタiceCube.uhe.analysis.QuickNCPropagationMatrixFlux: constroctor
QuickPropagatingNeutrinoFlux - iceCube.uhe.neutrinoModel のクラス: This class calculates differential flux dF/dLogE [/cm^2 sec sr] of neutrinos and charged leptons after propagation in the earth for a given model of primary cosmic neutrino production in the Universe.
QuickPropagatingNeutrinoFlux(int) - クラスのコンストラクタiceCube.uhe.neutrinoModel.QuickPropagatingNeutrinoFlux: Constructor
QuickPropagationMatrixFlux - iceCube.uhe.analysis のクラス: It calculates the detectable neutrino event intensity at the Earth Surface as I3ParticleFlux does but the calculation is made by using the calculated energy distribution by NeutrinoQuickPropagator class and the numerically calculated effective area (I3EffectiveArea.java) without relying on I3Particle MC events.
QuickPropagationMatrixFlux(double) - クラスのコンストラクタiceCube.uhe.analysis.QuickPropagationMatrixFlux: constroctor

R

R_cylinder - クラスの static 変数iceCube.uhe.geometry.InjectionGeometryUtils: default radis of the cylinder radius
R_nu - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics
rA1Tau - クラスの static 変数iceCube.uhe.decay.Decay: The squared mass raio (m_A1/m_tau)^2.
RandomDouble - numRecipes のクラス: Ported to Java by Shigeru Yoshida for the IceCube MC. 2002.12.1 syoshida@hepburn.s.chiba-u.ac.jp Before using, initialize the state by the constrctor RandomDouble(long) in this Java version.
RandomDouble(long) - クラスのコンストラクタnumRecipes.RandomDouble: Constructor to initialize state[N] with a seed
RandomGenerator - numRecipes のクラス: Utilities for Random generator in Numerical Calculation.
RandomGenerator() - クラスのコンストラクタnumRecipes.RandomGenerator: default constructor : using the current time as a seed.
RandomGenerator(long) - クラスのコンストラクタnumRecipes.RandomGenerator: constructor with a given seed.
RandomGeneratorDemo - numRecipes のクラス: Display the pseudorandom numbers
RandomGeneratorDemo() - クラスのコンストラクタnumRecipes.RandomGeneratorDemo
RandomGeneratorTest - numRecipes のクラス: Testing of the uniformity in the pseudorandom numbers
RandomGeneratorTest() - クラスのコンストラクタnumRecipes.RandomGeneratorTest
RandomGeneratorTest2 - numRecipes のクラス: Testing of the Gaussian probability with Monte Carlo method based on the RandomGenerator class
RandomGeneratorTest2() - クラスのコンストラクタnumRecipes.RandomGeneratorTest2
ratioOfDecayWidth - クラスの変数iceCube.uhe.interactions.GlashowResonanceHadronic: Ration Gamma_hadron/Gamma_muon = Gamma_hadron/Gamma_tau
readAndFillEventRate(DataInputStream) - クラスのメソッドiceCube.uhe.analysis.NPEthresholdOptimizer: Reading the number of signal and background events binned in logNPE and y(such as cos(Zenith)
readAndFillEventRate(DataInputStream, boolean) - クラスのメソッドiceCube.uhe.analysis.NPEthresholdOptimizer: Reading the number of signal and background events binned in logNPE and y(such as cos(Zenith).
readAndFillLDP(DataInputStream) - クラスのメソッドiceCube.uhe.analysis.LDPcalculator: Reading the signal and bg rates from the input stream.
readArray(DataInputStream) - クラスのメソッドiceCube.uhe.event.EventArrayForEachInteraction: Read the calculated event matrix by RunManager.runEventOnMatrix
readI3Particles(InputStream) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: reading the I3Particle objects
readI3Particles(InputStream) - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: reading the I3Particle objects
readMatrix(DataInputStream) - クラスのメソッドiceCube.uhe.event.EventMatrix: Read the calculated event matrix by RunManager.runEventOnMatrix
readMatrix(DataInputStream) - クラスのメソッドiceCube.uhe.event.EventMatrix_single: Read the calculated event matrix by RunManager.runEventOnMatrix
readMatrix(DataInputStream) - クラスのメソッドiceCube.uhe.event.EventMonoEnergyFlux: Read the calculated propagation matrix
readMatrix(DataInputStream) - クラスのメソッドiceCube.uhe.event.NeutEventMonoEnergyFlux: Read the calculated propagation matrix
readMatrix(DataInputStream) - クラスのメソッドiceCube.uhe.muonModel.PropagatingAtmMuonFlux: Read the calculated propagation matrix
readMatrix(DataInputStream) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: Read the calculated propagation matrix
readMatrix(DataInputStream) - クラスのメソッドiceCube.uhe.propagation.DrawPropagationMatrix: Read the calculated propagatin matrix
readMatrix(DataInputStream) - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: Read the propagation matrix data for handing the charged lepton propagation.
readMatrix(DataInputStream) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrixFactory: Read the calculated propagation matrix
readPropagationMatrix(String) - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: Let the propagationMatrixFactory read the propagation matrix data corresponds to the "fileName"
readTableData() - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Reading out the table data files from tableFileName[i]
readTableData(String, int) - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Reading out the table data file with name fileName String fileName : name of the table file name you read int distanceIndex : index of distance to contain the flux data in the array
readYieldTable(DataInputStream) - クラスのメソッドiceCube.uhe.analysis.YieldAnalysisFactory: Reads the yield table from the DataInoutStream and generate map(logE,map(sigmaCC,yield)) internally.
realDataMap - クラスの変数numRecipes.PoissonBinnedLikelihoodCalculator: Map container for (N_i, \mu_i).
REarth - クラスの static 変数geometry.EarthCenterCoordinate: Radius of the earth [cm]
REarth - クラスの static 変数iceCube.uhe.points.ParticlePoint: Earth radius [cm].
recoEBinWidth - クラスの static 変数iceCube.uhe.analysis.PoissonBinnedLikelihoodMapBuilder
registerMonteCarloBase(MonteCarloBase[]) - クラスのメソッドiceCube.uhe.event.Event: Register the MonteCarloBase objects involved in the propagation
relativeCRFlux - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: The default CR flux relative to that extrpolated from the GZK regime
RelativeElbertFluxTableMaker - iceCube.uhe.muonModel のクラス: The muon bundle flux table relative to those given by the original parameters (alpha=2.04 Eth=3730=GeV - settable by the constructor in this class) to a given alpha with the fixed Eth.
RelativeElbertFluxTableMaker() - クラスのコンストラクタiceCube.uhe.muonModel.RelativeElbertFluxTableMaker: default constructor
RelativeElbertFluxTableMaker(double, double) - クラスのコンストラクタiceCube.uhe.muonModel.RelativeElbertFluxTableMaker: constructor with the reference parameters which gives the original fluxe
removeAtmosphericMuonFlux(String) - クラスのメソッドiceCube.uhe.particles.I3Particle: Remove the Atmospheric Muon flux data stored by String "fluxName"
removeGZKNeutrinoFlux(String) - クラスのメソッドiceCube.uhe.particles.I3Particle: Remove the GZK neutrino flux data stored by String "fluxName"
replace(int, int, int) - クラスの static メソッドiceCube.uhe.interactions.TableAdjust
replaceExpectedNumbersWithObservedNumbers() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Replace the expected number with the observed number so that the expected number vector exactly equals to the observed number vector.
replaceExpectedNumbersWithObservedNumbers(PoissonBinnedLikelihoodCalculator) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Replace the expected number with the observed number - expected number in calBase so that the expected number vector maximizes the likelihood under the conditaion that the minimum expected numbers are bounded by the expected numbers stored in calBase.
replicaDataMap - クラスの変数numRecipes.PoissonBinnedLikelihoodCalculator
returnToTheCRFluxNormalizationEstimatedFromGZK() - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
rMuPI - クラスの static 変数iceCube.uhe.decay.Decay: The squared mass raio (m_mu/m_pi)^2.
rockrange - クラスの static 変数iceCube.uhe.analysis.I3ParticleWeightFiller
RombergIntegral(Function, int, double[], double, double) - クラスの static メソッドnumRecipes.Integration: The Romberg method.
rotate(int, double) - クラスのメソッドgeometry.Coordinate: Rotate the coordinate system.
rPi - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
rPiTau - クラスの static 変数iceCube.uhe.decay.Decay: The squared mass raio (m_pi/m_tau)^2.
rRhoTau - クラスの static 変数iceCube.uhe.decay.Decay: The squared mass raio (m_rho/m_tau)^2.
RunAnalysis - iceCube.uhe.analysis のクラス
RunAnalysis() - クラスのコンストラクタiceCube.uhe.analysis.RunAnalysis
RunAtmMuonBundleCombinedFitter - iceCube.uhe.analysis のクラス
RunAtmMuonBundleCombinedFitter() - クラスのコンストラクタiceCube.uhe.analysis.RunAtmMuonBundleCombinedFitter
RunAtmMuonBundleFitter - iceCube.uhe.analysis のクラス
RunAtmMuonBundleFitter() - クラスのコンストラクタiceCube.uhe.analysis.RunAtmMuonBundleFitter
RunBGOnlyHypothesisTestByBinnedLikelihood - iceCube.uhe.analysis のクラス: Run the bg only hypothesis test based on the binned Poisson likelihood.
RunBGOnlyHypothesisTestByBinnedLikelihood() - クラスのコンストラクタiceCube.uhe.analysis.RunBGOnlyHypothesisTestByBinnedLikelihood
runEventDump(DataOutputStream) - クラスのメソッドiceCube.uhe.event.RunManager: Method to run event for making textual full-data-file.
runEventOnMatrix(int, DataOutputStream) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Method to run multiple events (numberOfEvent) with various primary energies from logE = Particle.getLogEnergyMinimum() all the way up to 10^12 GeV.
runEventOnMatrix(int, DataOutputStream) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Method to run multiple events (numberOfEvent) with various primary energies from logE = Particle.getLogEnergyMinimum() all the way up to 10^12 GeV.
runEventOnMatrix(DataOutputStream) - クラスのメソッドiceCube.uhe.event.RunManager: Method to run multiple events with various primary energies from logE = Particle.getLogEnergyMinimum() all the way up to 10^12 GeV.
RunI3ParticleBuilder - iceCube.uhe.analysis のクラス: Run I3ParticleBulder to generate a series of I3Particles.
RunI3ParticleBuilder() - クラスのコンストラクタiceCube.uhe.analysis.RunI3ParticleBuilder
RunI3ParticleFlux - iceCube.uhe.analysis のクラス: Calculate the detectable Neutrino flux [GeV/cm^2 sec sr] at the surface by running I3ParticleFlux.
RunI3ParticleFlux() - クラスのコンストラクタiceCube.uhe.analysis.RunI3ParticleFlux
RunJaidaAnalysis - iceCube.uhe.analysis のクラス
RunJaidaAnalysis() - クラスのコンストラクタiceCube.uhe.analysis.RunJaidaAnalysis
RunJaidaAnalysisIC22 - iceCube.uhe.analysis のクラス
RunJaidaAnalysisIC22() - クラスのコンストラクタiceCube.uhe.analysis.RunJaidaAnalysisIC22
RunJaidaAnalysisIC9 - iceCube.uhe.analysis のクラス
RunJaidaAnalysisIC9() - クラスのコンストラクタiceCube.uhe.analysis.RunJaidaAnalysisIC9
RunJuliet - iceCube.uhe.event のクラス
RunJuliet() - クラスのコンストラクタiceCube.uhe.event.RunJuliet
RunJuliet4Gen2 - iceCube.uhe.event のクラス
RunJuliet4Gen2() - クラスのコンストラクタiceCube.uhe.event.RunJuliet4Gen2
RunJulietMillipede - iceCube.uhe.analysis のクラス
RunJulietMillipede() - クラスのコンストラクタiceCube.uhe.analysis.RunJulietMillipede
RunManager - iceCube.uhe.event のクラス: This is a run manager for the Event class.
RunManager() - クラスのコンストラクタiceCube.uhe.event.RunManager: Constructor.
RunModelTestByPoissonBinnedLikelihood - iceCube.uhe.analysis のクラス: Run the neutrino model test based on the binned Poisson likelihood.
RunModelTestByPoissonBinnedLikelihood() - クラスのコンストラクタiceCube.uhe.analysis.RunModelTestByPoissonBinnedLikelihood
runMultipleEvent(DataOutputStream) - クラスのメソッドiceCube.uhe.event.RunManager: Method to run multiple events with a monocromatic primary energy given by the constructor.
runMultipleEvent_Each(DataOutputStream) - クラスのメソッドiceCube.uhe.event.RunManager: Method to run multiple events with a monocromatic primary energy given by the constructor.
RunNeutrinoQuickPropagator - iceCube.uhe.propagation のクラス
RunNeutrinoQuickPropagator() - クラスのコンストラクタiceCube.uhe.propagation.RunNeutrinoQuickPropagator
RunParticle - iceCube.uhe.geometry のクラス: This is a demo program for running a particle in the earth.
RunParticle() - クラスのコンストラクタiceCube.uhe.geometry.RunParticle
runPoissonExperiment() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: This method is purely for debugging purposes.
RunPropagationMatrix - iceCube.uhe.propagation のクラス: Run the Propagation matrix to calculate the energy distribution and the flux of particles after propagation in the Earth.
RunPropagationMatrix(double, int, int, int) - クラスのコンストラクタiceCube.uhe.propagation.RunPropagationMatrix: Constructor.
RunPropagationMatrix() - クラスのコンストラクタiceCube.uhe.propagation.RunPropagationMatrix: Constructor to do nothing - for subclass modules
RunPropagationMatrix(double, int, int, int, double) - クラスのコンストラクタiceCube.uhe.propagation.RunPropagationMatrix
RunPropagationMatrixBHevap - iceCube.uhe.propagation のクラス: Run the Propagation matrix to calculate the energy distribution and the flux of particles after propagation in the Earth.
RunPropagationMatrixBHevap(double, int, int, int, int) - クラスのコンストラクタiceCube.uhe.propagation.RunPropagationMatrixBHevap: Constructor.
RunPropagationMatrixFlux - iceCube.uhe.analysis のクラス: Calculate the detectable Neutrino flux [GeV/cm^2 sec sr] at the surface by running ProrpagationMatrixFlux.
RunPropagationMatrixFlux() - クラスのコンストラクタiceCube.uhe.analysis.RunPropagationMatrixFlux
RunPropagationMatrixZeus - iceCube.uhe.propagation のクラス
RunPropagationMatrixZeus(double, int, int, int) - クラスのコンストラクタiceCube.uhe.propagation.RunPropagationMatrixZeus: Constructor.
RunPropagationMatrixZeus(double, int, int, int, double) - クラスのコンストラクタiceCube.uhe.propagation.RunPropagationMatrixZeus
RunQuickPropagationMatrixFlux - iceCube.uhe.analysis のクラス: Calculate the detectable Neutrino flux [GeV/cm^2 sec sr] at the surface by running ProrpagationMatrixFlux.
RunQuickPropagationMatrixFlux() - クラスのコンストラクタiceCube.uhe.analysis.RunQuickPropagationMatrixFlux
runReplicaExperiment(double) - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Run replica expetiment one time following the Poissonian to the series of (N_i, mu_i).
runReplicaExperiment() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: Run replica expetiment one time following the Poissonian to the series of (N_i, mu_i).
RunSignalVsNuisanceSignal - iceCube.uhe.analysis のクラス: Run the p-value distribution for p-value of the signal hypothesis against alternative signal hypothesis.
RunSignalVsNuisanceSignal() - クラスのコンストラクタiceCube.uhe.analysis.RunSignalVsNuisanceSignal
runSingleEvent() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Method to run a single event with a monocromatic primary energy given by the constructor.
runSingleEvent() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Method to run a single event with a monocromatic primary energy given by the constructor.
runSingleEvent() - クラスのメソッドiceCube.uhe.event.RunManager: Method to run a single event with a monocromatic primary energy given by the constructor.
runTimesDefault - クラスの static 変数iceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: default number of runs in the replica experiment to calculate the pdf of the likelihood ratio
rXTau - クラスの static 変数iceCube.uhe.decay.Decay: The squared mass raio (m_X/m_tau)^2.

S

s - クラスの変数iceCube.uhe.propagation.NeutrinoQuickPropagator: Propagated medium class
sampleLogEnergyRatioFactor(RandomGenerator, double, boolean) - クラスのメソッドiceCube.uhe.muonModel.CascadeFluctuationFactory: sample and returns Log((E_muon/E0)/ Bar(E_muon/E0)) with MC method
saveMatrix(DataOutputStream) - クラスのメソッドiceCube.uhe.propagation.RunPropagationMatrix: Save the calculated propagatin matrix
SearchEvolution - iceCube.uhe.neutrinoModel のクラス
SearchEvolution() - クラスのコンストラクタiceCube.uhe.neutrinoModel.SearchEvolution
searchIndex(double[], double, int) - クラスの static メソッドnumRecipes.Interpolation: Search the array index such that x is between xx[index] and xx[index+1]. xx must be monotonic, either increasing or decreasing. index =0 or index = n-1 is returned to indicate x is out of range.
setAll(double, double, double) - クラスのメソッドgeometry.J3Vector: set all xyz components
setAlpha(double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Set the alpha paramerter
setAlpha(double) - クラスのメソッドiceCube.uhe.muonModel.RelativeElbertFluxTableMaker
setAnotherNeutrinoSignalModel(PoissonBinnedLikelihoodCalculator) - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: Set the PoissonBinnedLikelihoodCalculator that stores the binned poisson data for the signal model to be tested.
setAtmMuonBundleFlux(I3ParticleAnalysisFactory, ParticlePoint, AtmMuonBundleFlux) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter: Set the Atmospheric Muon Bundle flux to all the I3Particles stored in the I3ParticleAnalysisFactory.
setAtmMuonBundleFlux(I3ParticleAnalysisFactory, ElbertFluxTableFactory) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter: Set the Atmospheric Muon Bundle flux to all the I3Particles stored in the I3ParticleAnalysisFactory.
setAtmMuonBundleFlux(I3ParticleAnalysisFactory, String, RelativeElbertFluxTableMaker) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter
setAtmMuonBundleFluxRatio(I3ParticleAnalysisFactory, String, ElbertFluxTableFactory, RelativeElbertFluxTableMaker) - クラスの static メソッドiceCube.uhe.analysis.AtmMuonBundleFitter: This is for the debugging.
setAtmosphericMuonFlux(double, String) - クラスのメソッドiceCube.uhe.particles.I3Particle: Sets the Atmospheric Muon flux dF/dLogE [/cm^2 sec sr] for weight.
setAxisLength(double) - クラスのメソッドgeometry.J3Line: set a new axis length l
setBestNpe(double) - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
setBinSize(double, double, double, double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Set historgram bin size double deltaLogEnergy bin size of logEnergy double deltaLogNpe bin size of logNpe double deltaCosZenith bin size of cos(zenith angle) double deltaFgQuality bin size of "First Guess Quality index" in unit of beta
setBinSize(double, double, double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory
setBinSize(double, double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory
setCOBZcut(double, double) - クラスのメソッドiceCube.uhe.analysis.Criteria: Sets the COBZ cut
setCOBZcut() - クラスのメソッドiceCube.uhe.analysis.Criteria: Sets the COBZ cut with the Default COB-Z range
setConfidenceLevel(double) - クラスの static メソッドnumRecipes.FeldmanCousins
setConfidenceLevelOfFluctuation(double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Set Confidence level of the Energy rato parameter R = (E_muon/E0)/ Bar(E_muon/E0).
setConfidenceLevelOfFluctuation(double) - クラスのメソッドiceCube.uhe.muonModel.PropagatingAtmMuonFlux: Set Confidence level of the Energy rato parameter R = (E_muon/E0)/ Bar(E_muon/E0).
setCREnergyReference(double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
setCRFluxAtReferenceEnergy(double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: set the relative normalization relativeCRFlux so that the normalization of the cosmic ray spectrum gives the eFlux at the cosmic ray reference energy
setCRFluxAtReferenceEnergy(double, double, double, double, double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: set the relative normalization relativeCRFlux so that the normalization of the cosmic ray spectrum gives the eFlux at the cosmic ray reference energy.
setCriteria(Criteria) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Sets the criteria on making Histogram
setCriteria(Criteria) - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Sets the criteria on making Histogram
setCumulativeTable(MuDecayYMatrix) - クラスのメソッドiceCube.uhe.decay.MuDecayBase: Make a cumulative table of differential cross section.
setCumulativeTable(TauDecayYMatrix) - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Make a cumulative table of differential cross section.
setCutOffFeature(boolean) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Set on/off the GZK feature of the primary cosmic ray spectrum
setCutOffFeature(boolean) - クラスのメソッドiceCube.uhe.muonModel.CosmicRayFlux: Sets on/off the cutoff feature at the highest energy end
setCutOffFeature(boolean) - クラスのメソッドiceCube.uhe.muonModel.PropagatingAtmMuonFlux: set the GZK cutoff feature or not
setDecayMode(RandomGenerator) - クラスのメソッドiceCube.uhe.decay.TauDecayBase: Choose the decay mode.
setDirection(J3UnitVector) - クラスのメソッドgeometry.J3Line: set a new direction
setDistanceFromEarthSurfaceToIceCube(double) - クラスのメソッドiceCube.uhe.particles.I3Particle: Set the distance from the Earth Surface that this particle has propagated before reching to the IceCube volume
setDx(double) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Change the infinitesimal propagation length
setEflux(double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Set the normalization E^2dF/dE [GeV/cm2 sec sr] for the power law model (model ID 24)
setEHESuperCut(int, J3Vector) - クラスのメソッドiceCube.uhe.analysis.Criteria: set all the GZK boundary values of Npe and cosZenith in the "EHE Super Cut" for each of the four event categories: Npe-ATWD > Npe-FADC && | Npe-ATWD < Npe-FADC && cobZ =[min max] | cobZ =[min max] ---------------------------------------------------- Npe-ATWD > Npe-FADC && | Npe-ATWD < Npe-FADC && cobZ out of [min max] | cobZ out of [min max] The GZK boundary are defined by connecting the lines from the i-th point to the i+1 th point.
setEHESuperCut(int) - クラスのメソッドiceCube.uhe.analysis.Criteria: set all the GZK boundary values of Npe and cosZenith in the "EHE Super Cut" for a given event categories with the default settings.
setEHESuperCut() - クラスのメソッドiceCube.uhe.analysis.Criteria: set all the GZK boundary values of Npe and cosZenith in the "EHE Super Cut" for all of the event categories with the default settings.
setEHESuperCut(int) - クラスのメソッドiceCube.uhe.analysis.CriteriaIC22: set all the GZK boundary values of Npe and cosZenith in the "EHE Super Cut" for a given event categories with the default settings.
setElbertParameters(int, int) - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Set the bin numbers of alpha and the threshold energy of Muon.
setElbertParameters(double, double) - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Set alpha and the threshold energy of Muon.
setElbertParameters(int) - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Set the bin numbers of alpha.
setElbertParameters(double) - クラスのメソッドiceCube.uhe.muonModel.ElbertFluxTableFactory: Set alpha.Eth is set to be the lowest value i.e. that in the first bin.
setEnergyBase(double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Set the base energy [GeV] to define normalization E^2dF/dE [GeV/cm2 sec sr] for the power law model (model ID 24)
setEnergyReference(double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
setEventNumber(int) - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
setFirstGuessQuality(double) - クラスのメソッドiceCube.uhe.particles.I3Particle: put the First Guess fit quality parameter such as the velocity
setFlavorAndDoublet(int, int) - クラスのメソッドiceCube.uhe.particles.Particle: Sets the flavor and doublet.
setFluxCalculationMode(boolean, boolean) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: set the mode on the flux caulation boolean includeFluctuationEffects : true default. calculate the flux taking into account flucuation of muon energies due to the EAS cascading.
setFluxCalculationMode(boolean, boolean) - クラスのメソッドiceCube.uhe.muonModel.PropagatingAtmMuonFlux: set the mode on the flux caulation boolean includeFluctuationEffects : true default. calculate the flux taking into account flucuation of muon energies due to the EAS cascading.
setGeometryShift(J3Vector) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Set the geometrical shift in IceCube coordinate
setGeometryShift(J3Vector) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Set the geometrical shift in IceCube Gen2 coordinate
setGlacierDepth(double) - クラスのメソッドiceCube.uhe.geometry.IceCubeCoordinate: Set the depth of glacier [cm].
setGlacierDepth(double) - クラスのメソッドiceCube.uhe.geometry.IceCubeGen2Coordinate: Set the depth of glacier [cm].
setGZKNeutrinoFlux(double, String) - クラスのメソッドiceCube.uhe.particles.I3Particle: Sets the GZK neutrino flux dF/dLogE [/cm^2 sec sr] for weight.
setIceRockBoundaryRadius(double) - クラスのメソッドiceCube.uhe.points.ParticlePoint
setIncidentParticleEnergy(double) - クラスのメソッドiceCube.uhe.interactions.Ionization
setIncidentParticleEnergy(int) - クラスのメソッドiceCube.uhe.interactions.Ionization
setInitialPoint(J3Line, IceCubeCoordinate) - クラスの static メソッドiceCube.uhe.geometry.ParticleTracker
setJ3LineNegativeAxisLengthForGivenLength(J3Line, double) - クラスの static メソッドgeometry.J3Utility: Set J3Line's axis length so that its absolute length |J3Line| is equal to the given length.
setJ3LineNegativeAxisLengthForGivenLength(J3Line, J3Vector, double) - クラスの static メソッドgeometry.J3Utility: Set J3Line's axis length so that its absolute length |J3Line-J3Vector| is equal to the given length.
setJ3LinePositiveAxisLengthForGivenLength(J3Line, double) - クラスの static メソッドgeometry.J3Utility: Set J3Line's axis length so that its absolute length |J3Line| is equal to the given length.
setJ3LinePositiveAxisLengthForGivenLength(J3Line, J3Vector, double) - クラスの static メソッドgeometry.J3Utility: Set J3Line's axis length so that its absolute length |J3Line-J3Vector| is equal to the given length.
setLength() - クラスのメソッドgeometry.J3Vector: calculate the vector length to set
setLifeTimeMatrix(int) - クラスのメソッドiceCube.uhe.decay.MuDecayMatrix: Calculate the life time matrix considering the Lorentz duration
setLifeTimeMatrix(int) - クラスのメソッドiceCube.uhe.decay.MuDecayYMatrix: Calculate the life time matrix considering the Lorentz duration
setLifeTimeMatrix(int) - クラスのメソッドiceCube.uhe.decay.TauDecayMatrix: Calculate the life time matrix considering the Lorentz duration
setLifeTimeMatrix(int) - クラスのメソッドiceCube.uhe.decay.TauDecayYMatrix: Calculate the life time matrix considering the Lorentz duration
setLogEmax(double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Set the logEmax[GeV] for the power law model (model ID 24)
setMassNumber(double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: set mass number of the primary cosmic rays
setMaterialNumber(int) - クラスのメソッドiceCube.uhe.points.ParticlePoint: Sets material number to specify either Ice or standard Rock
setMaxDistance(double, J3Vector) - クラスのメソッドiceCube.uhe.analysis.Criteria: Sets the maximum distance : The COB/Cascade vertex - origin must be shorter than this value.
setMaximumNeutrinoEnergy(double) - クラスの static メソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: set the maximum energy of generated neutrinos [GeV]
setMaxRangeOfNDOMsInDrawing(int) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Set Max Number Of DOMs in Drawing
setMCArea(double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Set the MC area [cm^2]
setMCArea(double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Set the MC area [cm^2]
setMCPrimarySpectrumWeight(double) - クラスのメソッドiceCube.uhe.particles.I3Particle: Set the MC primary spectrum weight You have to switch to MCTruth (by calling switchToMCTruth()) to put this weight, due to the safety reasons.
setMCSolidAngle(double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Set the MC solid angle [sr]
setMCSolidAngle(double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Set the MC solid angle [sr]
setMinimumBound(double, double) - クラスのメソッドiceCube.uhe.analysis.Criteria: Set the highest cosZenith and the lowest LogNpe -- Criterion (a'')
setModelNumber(int) - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation: model number settings.
setMuDecayMatrix(int, int) - クラスのメソッドiceCube.uhe.decay.MuDecayMatrix: Calculate the decay matrix from mu to neutrinos and and electrons
setMuDecayMatrix(int) - クラスのメソッドiceCube.uhe.decay.MuDecayYMatrix: Calculate the decay matrix from mu to neutrinos and and electrons
setMuonThresholdEnergy(double) - クラスのメソッドiceCube.uhe.muonModel.AtmMuonBundleFlux: Set the threshold energy [GeV] of muons contained in a bundle
setNDOMsATWD(int) - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
setNDOMsFADC(int) - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
setNDOMsLaunch(int) - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
setNeutrinoCCEnhancement(double) - クラスのメソッドiceCube.uhe.analysis.QuickPropagationMatrixFlux
setNeutrinoInteractionWeight(int) - クラスの static メソッドiceCube.uhe.event.JulietEventGenerator: Change the Neutrino interaction weight in the InteractionBase
setNeutrinoInteractionWeight(int) - クラスの static メソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Change the Neutrino interaction weight in the InteractionBase
setNeutrinoNCEnhancement(double) - クラスのメソッドiceCube.uhe.analysis.QuickNCPropagationMatrixFlux
setNeutrinoSurfaceEnergy(double) - クラスのメソッドiceCube.uhe.analysis.BHevapPropagationMatrixFlux
setNpeATWD(double) - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
setNpeFADC(double) - クラスのメソッドiceCube.uhe.particles.I3Particle.I3Data
setNPEScalingFactor(double) - クラスのメソッドiceCube.uhe.analysis.Criteria: Set the NPE scaling factor (default:1.0).
setNuisanceSignal(PoissonBinnedLikelihoodCalculator) - クラスのメソッドiceCube.uhe.analysis.ModelTestByPoissonBinnedLikelihoodFactory: Set the PoissonBinnedLikelihoodCalculator that stores the binned poisson data for the nuisance signal
setObservationTime(double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Set the MC solid angle [sec]
setObservationTime(double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Set the MC solid angle [sec]
setObservationTime(double) - クラスのメソッドiceCube.uhe.analysis.PropagationMatrixFlux: Set the MC solid angle [sec]
setOneCascadeMtx(int, int) - クラスのメソッドiceCube.uhe.event.RunManager: make histgram for EnergyDeposit/cascade
setOneEmgCascadeMtx(int, int) - クラスのメソッドiceCube.uhe.event.RunManager
setOneHadronCascadeMtx(int, int) - クラスのメソッドiceCube.uhe.event.RunManager
setOneTotalCascadeMtx(int, int) - クラスのメソッドiceCube.uhe.event.RunManager
setOpticalDepth(double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource
setOrigin(J3Vector) - クラスのメソッドgeometry.Coordinate: Set the origin of the coordinate system.
setParticleAxisInEarthCenterCoordinate(J3Line) - クラスのメソッドiceCube.uhe.particles.I3Particle: Sets the particle axis defined in the Earth Center coordinate
setParticleAxisInIceCubeCoordinate(J3Line) - クラスのメソッドiceCube.uhe.particles.I3Particle: Sets the particle axis defined in the IceCube coordinate
setParticleLocation(double) - クラスのメソッドiceCube.uhe.points.ParticlePoint: Setting the particle location along the trajectory, i.e. lAxis.
setParticlePoint(ParticlePoint) - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: Set the particle point class.
setPlotStyle(IPlotterStyle, String, String) - クラスの static メソッドiceCube.uhe.analysis.JaidaPlotStyleSetter
setPlotStyle(IPlotterStyle, String, String, String, String) - クラスの static メソッドiceCube.uhe.analysis.JaidaPlotStyleSetter
setPowerLawIndex(double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFlux: Set the powerlaw index for the power law model (model ID 24)
setPowerLawIndexOfRadiation(double) - クラスのメソッドiceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: set the power law index gamma.
setProducedFlavor(int) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceBase: Set the flavor of the produced particle
setPropagationFlagToFalse() - クラスのメソッドiceCube.uhe.event.JulietTask
setR0(J3Vector) - クラスのメソッドgeometry.J3Line: set a new passing point
setRangeOfCosineOfZenith(double, double, double, double) - クラスのメソッドiceCube.uhe.analysis.Criteria: Sets the range of the line on cosZenith -logNpe plain.
setRangeOfMCSpectrum(double, double) - クラスのメソッドiceCube.uhe.analysis.I3ParticleBuilder: Set range of MC primary spectrum dN/dE double logEnergyMinimum : log(Energy Minimum [GeV]) in the spectral range double logEnergyMaximum : log(Energy Maximum [GeV]) in the spectral range
setRangeOfSignalIntervalCalculation(double, double, double) - クラスの static メソッドnumRecipes.FeldmanCousins: Set the range of signals in calculating the signal interval - min < signal < max
setRelativeAccuracy(double) - クラスの static メソッドnumRecipes.Integration: Change the relative accuracy in the inegration
setRelativeBackgroundUncertainty(double, double) - クラスの static メソッドnumRecipes.FeldmanCousins: Set the bacgkround uncertainty.
setSigmaMatrix(int) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceHadronicMatrix: Calculate the total cross section matrix
setSigmaMatrix(int) - クラスのメソッドiceCube.uhe.interactions.InteractionsMatrix: Calculate the total cross section matrix
setSigmaMatrix(int) - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporationMatrix: Calculate the total cross section matrix
setSimpleCosZenithCut(double, boolean) - クラスのメソッドiceCube.uhe.analysis.Criteria: Set the simple zenith Cut -- Criterion (a''')/
setSimpleNpeCut(double, boolean) - クラスのメソッドiceCube.uhe.analysis.Criteria: Set the simple Npe Cut -- Criterion (a'''')/
setSlantDepth(double) - クラスのメソッドiceCube.uhe.points.ParticlePoint: Setting the slant depth
setStartLocation(double) - クラスのメソッドiceCube.uhe.event.RunManager: Set the location of primary particle
setStartLocationAlongTheAxis(double) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Set the start location of primary particle along its trajectory axis (particle point/J3Line)
setStartLocationAlongTheAxis(double) - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Set the start location of primary particle along its trajectory axis (particle point/J3Line)
setStepDx(double) - クラスのメソッドiceCube.uhe.event.Event: Set the step size for traceParticle()
setTauDecayMatrix(int, int) - クラスのメソッドiceCube.uhe.decay.TauDecayMatrix: Calculate the decay matrix from tau to neutrinos, leptons, and hadrons
setTauDecayMatrix(int) - クラスのメソッドiceCube.uhe.decay.TauDecayYMatrix: Calculate the decay matrix from tau to neutrinos, leptons, and hadrons
setThresholdOfFirstGuessQuality(double) - クラスのメソッドiceCube.uhe.analysis.Criteria: Sets the threshold of the First Guess fitting quality.
setThresholdOfLogNpe(double) - クラスのメソッドiceCube.uhe.analysis.Criteria: Set the threshold of Log10(Npe) no matter where an event comes from.
setThresholdOfNDOMs(int) - クラスのメソッドiceCube.uhe.analysis.Criteria: Set the threshold of Number Of DOMs.
setTransferMatrix(int, int) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceHadronicMatrix: Calculate the transfer matrix This matrix should be a diagonal matrix with just "Sigma", because all the incident energy is deposited as a hadronic cascade.
setTransferMatrix(int, int) - クラスのメソッドiceCube.uhe.interactions.InteractionsMatrix: Calculate the transfer matrix
setTransferMatrix(int, int) - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporationMatrix: Calculate the transfer matrix
setX(double) - クラスのメソッドgeometry.J3Vector: set x component
setY(double) - クラスのメソッドgeometry.J3Vector: set y component
setZ(double) - クラスのメソッドgeometry.J3Vector: set z component
sigma_table - クラスの static 変数iceCube.uhe.interactions.NeutrinoBHevaporation: cross section [pB] table provided in the BH evaporation model
sigMap - クラスの変数iceCube.uhe.analysis.LDPcalculator
sigmaRes - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
signalDiscoverPotentialHisto - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: Histogram to store the signal discovery potential
signalFactorForMaximalLlhH1 - クラスの変数numRecipes.PoissonBinnedLikelihoodRatioFactory: the scale factor to maximize likelihood for the alternative hypothesis
signalRate1D - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer
signalRate2D - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: histogram to store number of signal events
signalSearchRangeMax - クラスの static 変数numRecipes.FeldmanCousins: Range of searching the signal interval range decided by the Ferlman-Cousins
signalSearchRangeMin - クラスの static 変数numRecipes.FeldmanCousins: Range of searching the signal interval range decided by the Ferlman-Cousins
signalSearchStep - クラスの static 変数numRecipes.FeldmanCousins: step size of searching the signal interval range decided by the Ferlman-Cousins
significance - クラスの static 変数iceCube.uhe.analysis.LDPcalculator
SmuToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SmuToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SmuToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SmuToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SmuToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SmuToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SmuToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuEToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuEToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuEToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuEToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuEToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuEToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuEToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuMuToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuMuToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuMuToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuMuToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuMuToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuMuToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuMuToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuTauToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuTauToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuTauToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuTauToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuTauToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuTauToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SnuTauToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
SpecialFunctions - numRecipes のクラス: Utilities for Spectial Functions.
SpecialFunctions() - クラスのコンストラクタnumRecipes.SpecialFunctions
SpecialFunctionsDemo - numRecipes のクラス: Display the SpecialFunctions
SpecialFunctionsDemo() - クラスのコンストラクタnumRecipes.SpecialFunctionsDemo
sqMu - クラスの static 変数numRecipes.RandomGenerator
sRes - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
start() - クラスのメソッドiceCube.uhe.event.SwingWorker: Start the worker thread.
startRunIC22 - クラスの static 変数iceCube.uhe.analysis.I3ParticleIC22AnalysisFactory
StauToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
StauToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
StauToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
StauToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
StauToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
StauToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
StauToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
stepCosZenith - クラスの変数iceCube.uhe.muonModel.RelativeElbertFluxTableMaker
stepSizeBase - クラスの static 変数iceCube.uhe.propagation.NeutrinoQuickPropagator
stop() - クラスのメソッドiceCube.uhe.event.JulietTask
storePropagateMatrix() - クラスのメソッドiceCube.uhe.propagation.PropagationMatrix: Store the propagation matrix calculated so far to the store matrix which save energy distribution of neutrinos and leptons propagating to the current location.
subtract(J3Vector, J3Vector) - クラスの static メソッドgeometry.J3Vector: sabtract vectors a-b
SwingParticleDemo - iceCube.uhe.particles のクラス: Particle.class Demo program based on Swing User Interface
SwingParticleDemo() - クラスのコンストラクタiceCube.uhe.particles.SwingParticleDemo
SwingRun - iceCube.uhe.event のクラス: Run the JulietEventGenerator with the Swing User Interface
SwingRun() - クラスのコンストラクタiceCube.uhe.event.SwingRun
SwingRunIceTray - iceCube.uhe.event のクラス: Run the JulietEventGenerator with the Swing User Interface
SwingRunIceTray() - クラスのコンストラクタiceCube.uhe.event.SwingRunIceTray
SwingWorker - iceCube.uhe.event のクラス: This is the 3rd version of SwingWorker (also known as SwingWorker 3), an abstract class that you subclass to perform GUI-related work in a dedicated thread.
SwingWorker() - クラスのコンストラクタiceCube.uhe.event.SwingWorker: Start a thread that will call the construct method and then exit.
switchToChargedLepton() - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation
switchToMCTruth() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Switch to parameters concerned with MCtrue.
switchToMCTruth() - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Switch to parameters concerned with MCtrue.
switchToMCTruth() - クラスのメソッドiceCube.uhe.particles.I3Particle: Switch to parameters concerned with MCtrue.
switchToReco() - クラスのメソッドiceCube.uhe.analysis.I3ParticleAnalysisFactory: Switch to parameters concerned with Reco results.
switchToReco() - クラスのメソッドiceCube.uhe.analysis.I3ParticleFlux: Switch to parameters concerned with Reco results.
switchToReco() - クラスのメソッドiceCube.uhe.particles.I3Particle: Switch to parameters concerned with Reco results.
switchToShower() - クラスのメソッドiceCube.uhe.interactions.NeutrinoBHevaporation

T

table1DPath - クラスの static 変数iceCube.uhe.muonModel.RelativeElbertFluxTableMaker
TableAdjust - iceCube.uhe.interactions のクラス
TableAdjust() - クラスのコンストラクタiceCube.uhe.interactions.TableAdjust
tableFileName - クラスの static 変数iceCube.uhe.muonModel.ElbertFluxTableFactory
tablePath - クラスの static 変数iceCube.uhe.muonModel.ElbertFluxTableFactory: Path to the directory where the flux tables are stored.
targetPhotonEnergyMax - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: The maximal enery of the target photon [GeV]
targetPhotonEnergyMin - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFromSource: The minumum enery of the target photon [GeV]
TAUDECAY_FLAG - クラスの static 変数iceCube.uhe.propagation.PropagationMatrix
TauDecayBase - iceCube.uhe.decay のクラス: The TauDecayBase class to treat tau decay same as interactions for Event class.
TauDecayBase(TauDecayYMatrix) - クラスのコンストラクタiceCube.uhe.decay.TauDecayBase: Constructor for making the table of lifetime and cumulative table.
TauDecayMatrix - iceCube.uhe.decay のクラス: Matrix of the Energy Transfer by the tau decays The matrix elements are calculated by the methods supplied by the Decay class. /------------------------------------------------------------\ logEmin | 0 0 ...................................
TauDecayMatrix(Particle) - クラスのコンストラクタiceCube.uhe.decay.TauDecayMatrix: Constructor: Generate the matrix array
TauDecayMatrixDemo - iceCube.uhe.decay のクラス: Make the tau decay matrix and calculate some numbers derived by it.
TauDecayMatrixDemo() - クラスのコンストラクタiceCube.uhe.decay.TauDecayMatrixDemo
TauDecayYMatrix - iceCube.uhe.decay のクラス: Matrix of the Energy Transfer dN/dLogY by the tau decays The matrix elements are calculated by the methods supplied by the Decay class.
TauDecayYMatrix(Particle) - クラスのコンストラクタiceCube.uhe.decay.TauDecayYMatrix: Constructor: Generate the matrix array
TauDecayYMatrixDemo - iceCube.uhe.decay のクラス: Make the tau decay matrix and calculate some numbers derived by it.
TauDecayYMatrixDemo() - クラスのコンストラクタiceCube.uhe.decay.TauDecayYMatrixDemo
tauToE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
tauToHadron - クラスの変数iceCube.uhe.propagation.PropagationMatrix
tauToMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
tauToNuE - クラスの変数iceCube.uhe.propagation.PropagationMatrix
tauToNuMu - クラスの変数iceCube.uhe.propagation.PropagationMatrix
tauToNuTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
tauToTau - クラスの変数iceCube.uhe.propagation.PropagationMatrix
TCMB - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunction
temp - クラスの変数iceCube.uhe.propagation.PropagationMatrix
testFactory - クラスの変数iceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: The test factory
testFactory - クラスの static 変数iceCube.uhe.analysis.ModelULCalculatorByPoissonBinnedLikelihood
traceParticle(double) - クラスのメソッドiceCube.uhe.event.Event: Trace particle running by a given pathlength [g/cm^2]
traceParticles(double) - クラスのメソッドiceCube.uhe.propagation.RunPropagationMatrix: Trace particles running over a finite distance from the current location l to the length of the trajectory.
traceParticles() - クラスのメソッドiceCube.uhe.propagation.RunPropagationMatrix: Same as traceParticles(double trajectoryLength) but the end point is decided to be where the particles emerged from the underground.
traceParticles(double) - クラスのメソッドiceCube.uhe.propagation.RunPropagationMatrixBHevap: Trace particles running over a finite distance from the current location l to the length of the trajectory.
TrackGeometryGraphics - iceCube.uhe.event のクラス
transformParticleAxisToEarthCenterCoordinate() - クラスのメソッドiceCube.uhe.particles.I3Particle: Transofrm the particle axis vector from the IceCube coordinate to the Earth Cencer coordinate
transformParticleAxisToIceCubeCoordinate() - クラスのメソッドiceCube.uhe.particles.I3Particle: Transofrm the particle axis vector from the Earth Center coordinate to the IceCube coordinate
transformThisCoordinate(J3UnitVector, double) - クラスのメソッドgeometry.Coordinate: transform this coordiante to one with the external z-axis vector nz.
transformUnitVectorToEarthCenter(J3UnitVector) - クラスのメソッドgeometry.EarthLocalCoordinate: Transform unit vector (direction) J3UnitVector n represented in this coordinate system to the one in EarthCenterCoordinate.
transformUnitVectorToThisCoordinate(J3UnitVector) - クラスのメソッドgeometry.Coordinate: Transform unit vector (direction) J3UnitVector n represented in the different coordinate system to the one in this coordinate.
transformVectorToEarthCenter(J3Vector) - クラスのメソッドgeometry.EarthLocalCoordinate: Transform vector represented in this coordinate to EarthCenterCoordinate.
transformVectorToThisCoordinate(J3Vector, Coordinate) - クラスのメソッドgeometry.Coordinate: Transform vector point J3Vector r represented in the external coordinate system to the one in this coordinate.
trapzd(Function, int, double[], double, double, int) - クラスの static メソッドnumRecipes.Integration: Trapzd integraion method.
treatBGuncertainties - クラスの static 変数numRecipes.FeldmanCousins
Twist(long, long) - クラスのメソッドnumRecipes.RandomDouble

U

unsetCOBZcut() - クラスのメソッドiceCube.uhe.analysis.Criteria: Unsets the COBZ cut
useTheFullSearchToMaximizeLLH() - クラスのメソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: Use the full search for the parameters to maximize LLH in the method getLLHRatio() or getPvalue().
useTheQuickSearchToMaximizeLLH() - クラスのメソッドiceCube.uhe.analysis.ModelParaPvalueCalculatorByPoissonBinnedLH: Use the quick search for the parameters to maximize LLH in the method getLLHRatio() or getPvalue().
useTheReplicaResults - クラスの変数numRecipes.PoissonBinnedLikelihoodCalculator
useTheResultsByTheRealExperiment() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: call this method before calling the getLikelihood method if you want to calculate the log likelihood by the real results read by the method fillData().
useTheResultsByTheReplicaExperiment() - クラスのメソッドnumRecipes.PoissonBinnedLikelihoodCalculator: call this method before calling the getLikelihood method if you want to calculate the log likelihood by the results by the replica experiment you had run withe the method runReplicaExperiment()

V

vertexDefaultLocationX - クラスの static 変数iceCube.uhe.analysis.Criteria: The default vertex X location on the logNpe-CosZenith plane in the EHE super cut.
vertexDefaultLocationY - クラスの static 変数iceCube.uhe.analysis.Criteria: The default vertex y location on the logNpe-CosZenith plane in the EHE super cut.
vertexIC22DefaultLocationX - クラスの static 変数iceCube.uhe.analysis.CriteriaIC22: The default vertex X location on the logNpe-CosZenith plane in the EHE super cut.
vertexIC22DefaultLocationXwithNoCOBcut - クラスの static 変数iceCube.uhe.analysis.CriteriaIC22: The default vertex X location on the logNpe-CosZenith plane in the EHE super cut.
vertexIC22DefaultLocationY - クラスの static 変数iceCube.uhe.analysis.CriteriaIC22: The default vertex y location on the logNpe-CosZenith plane in the EHE super cut.
vertexIC22DefaultLocationYwithNoCOBcut - クラスの static 変数iceCube.uhe.analysis.CriteriaIC22: The default vertex y location on the logNpe-CosZenith plane in the EHE super cut.
vertexLocation - クラスの変数iceCube.uhe.analysis.Criteria
Volume - iceCube.uhe.geometry のクラス: This class defines the cubic or cuboid volume.
Volume(double) - クラスのコンストラクタiceCube.uhe.geometry.Volume: Constructor.
Volume(double, double, double) - クラスのコンストラクタiceCube.uhe.geometry.Volume: Constructor.

W

wherePrimaryParticleEndsInIceCubeCoordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Get the point location where the particle run starts.
wherePrimaryParticleEndsInIceCubeCoordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Get the point location where the particle run starts.
wherePrimaryParticleStartsInEarthCenterCoordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Get the point location where the particle run starts.
wherePrimaryParticleStartsInEarthCenterCoordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Get the point location where the particle run starts.
wherePrimaryParticleStartsInGen2Coordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Get the point location where the particle run starts.
wherePrimaryParticleStartsInIceCubeCoordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator: Get the point location where the particle run starts.
wherePrimaryParticleStartsInIceCubeCoordinate() - クラスのメソッドiceCube.uhe.event.JulietEventGenerator4Gen2: Get the point location where the particle run starts.
whetherPropagationMatrixWithGlashowResonance(boolean) - クラスのメソッドiceCube.uhe.muonModel.PropagatingAtmMuonFlux: or Glashow Resonance
whetherPropagationMatrixWithGlashowResonance(boolean) - クラスのメソッドiceCube.uhe.neutrinoModel.PropagatingNeutrinoFlux: or Glashow Resonance
whetherPropagationMatrixWithGlashowResonance(boolean) - クラスのメソッドiceCube.uhe.propagation.DrawPropagationMatrix: or Glashow Resonance
whetherPropagationMatrixWithGlashowResonance(boolean) - クラスのメソッドiceCube.uhe.propagation.NeutrinoQuickPropagator: If you need to read the matrix data without the Glashow Resonance call this method first with flag=false before readMatrix(in).
whetherPropagationMatrixWithGlashowResonance(boolean) - クラスのメソッドiceCube.uhe.propagation.PropagationMatrixFactory: or Glashow Resonance
wResonance(double) - クラスのメソッドiceCube.uhe.interactions.GlashowResonanceLeptonic: W resonance function (dimension less) described by the Lorentzian
WriteEventAtmFluxOverAllAngle - iceCube.uhe.event のクラス
WriteEventAtmFluxOverAllAngle() - クラスのコンストラクタiceCube.uhe.event.WriteEventAtmFluxOverAllAngle
WriteEventFluxOverAllAngle - iceCube.uhe.event のクラス
WriteEventFluxOverAllAngle() - クラスのコンストラクタiceCube.uhe.event.WriteEventFluxOverAllAngle

X

x0_screen - クラスの static 変数iceCube.uhe.interactions.Ionization
x1_screen - クラスの static 変数iceCube.uhe.interactions.Ionization
xCenterOfIC9 - クラスの static 変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
xDim() - クラスのメソッドiceCube.uhe.geometry.Volume: return the X dimension [cm] of the cuboid volume
xMax - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics
xTh - クラスの static 変数iceCube.uhe.neutrinoModel.NeutrinoFluxFunctionEnergetics

Y

yCenterOfIC9 - クラスの static 変数iceCube.uhe.analysis.I3ParticleAnalysisFactory
yDim() - クラスのメソッドiceCube.uhe.geometry.Volume: return the Y dimension [cm] of the cuboid volume
YieldAnalysisFactory - iceCube.uhe.analysis のクラス: This class makes and handles histograms of the neutrino detection yield[cm^2 sec sr] generated by DumpQuickPropagationMatrixYield class and neutrino cross section.
YieldAnalysisFactory(DataInputStream, boolean) - クラスのコンストラクタiceCube.uhe.analysis.YieldAnalysisFactory: Constructor.
YieldAnalysisFactory(DataInputStream) - クラスのコンストラクタiceCube.uhe.analysis.YieldAnalysisFactory: Constructor.
YieldAnalysisFactory(ObjectInputStream) - クラスのコンストラクタiceCube.uhe.analysis.YieldAnalysisFactory: Constructor.
yieldMap - クラスの変数iceCube.uhe.analysis.YieldAnalysisFactory: Maps to store the Yield Table
yieldTableExists - クラスの変数iceCube.uhe.analysis.PropagationMatrixFlux
yMax - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: maximum range of the parameter y (ex. cos(Zenith))
yMin - クラスの変数iceCube.uhe.analysis.NPEthresholdOptimizer: mininum range of the parameter y (ex. cos(Zenith))

Z

z_cylinder - クラスの static 変数iceCube.uhe.geometry.InjectionGeometryUtils: default radis of the cylinder height
zDim() - クラスのメソッドiceCube.uhe.geometry.Volume: return the Z dimension [cm] of the cuboid volume
zenithAngle - クラスの static 変数iceCube.uhe.analysis.QuickPropagationMatrixFlux: Zenith angle [deg]

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