参照先: 説明
クラス  説明 

AtmMuonBundleFitter 
This class provides methods to fit I3Particles with
the CEL approximated AtmMuonBundle flux or
precalculated fluxes by PropagatingAtmMuonFlux.

BHevapPropagationMatrixFlux 
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.

ConstrainEvolutionZmax 
Calculate the pvalue of GZK YoshidaIshihara in the plane of m zmax.

Criteria 
Criteria class defines requrements of the IceCube EHE events
that are subject to futher analysis.

CriteriaIC22  
DrawAtmMuonBundle  
DrawAtmMuonBundle2D  
DrawAtmMuonBundleByElbertFluxTable  
DrawAtmMuonBundleByRelativeWeight  
DrawAtmMuonBundleCombined  
DrawAtmMuonBundleFluxRatio  
DrawBGSpectrumByJaidaHisto  
DrawEffAreaTable  
DrawEvolutionZmaxContour  
DrawInIceEffArea 
Draw the inice effective area table
by running I3ParticleFlux.getInIceEffectiveArea(double logEnergy,
double cosZenith, int flavor, int doublet).

DrawMillipedeEnergyProbability  
DrawNuEffAreaByAreaTable 
Calculate the neutrino detection effective area [km^2 sr]
(neutrino interaction probability convoluted)
by running PropagationMatrixFlux with EffAreaTable class.

DrawNuEffAreaByI3Particle 
Calculate the neutrino detection effective area [km^2 sr]
(neutrino interaction probability convoluted)
by running I3ParticleFlux.

DumpQuickNCPropagationMatrixYield 
Calculate the neutrino detection yield by running ProrpagationMatrixFlux
and write it to the standard output.

DumpQuickPropagationMatrixYield 
Calculate the neutrino detection yield by running ProrpagationMatrixFlux
and write it to the standard output.

EffAreaTable 
(Inice) Effective Area is calculated from the numerical table
stored in the classes/iceCube/uhe/analysis.

EnergyHistogramMaker 
This class makes a 2D histogram of Energy correlations
like Muon Inice Energy Vs Primary Cosmic Ray enegry
(obtained by AtmMuonBundleFlux.java in the MuonModel package)
or Muon Inice Energy Vs Muon Surface Energy
(using PropagationMatrixFactory.java in the propahgation package)
Written by S.

FitElbertModelFixedEthWithIC9Data 
Fit the IC9 data with the Elbert Formula using
AtmMuonBundleFetter class.

FitElbertModelWithIC9Data 
Fit the IC9 data with the Elbert Formula using
AtmMuonBundleFetter class.

I3ParticleAnalysisFactory 
I3Particles Analysis Factory.

I3ParticleBuilder 
Build IceCube event(s) reading from the f2k data via standard input.

I3ParticleBuilderDemo 
I3Particle.class Demo program.

I3ParticleCorsikaWeightFiller  
I3ParticleCREnergyDistFiller  
I3ParticleFlux 
I3ParticleFlux calculates the detectable neutrino event intensity
at the Earth Surface using propagation matrix filled
in each of I3Particle.

I3ParticleGZKWeightFiller  
I3ParticleIC22AnalysisFactory 
I3Particles Analysis Factory for the IC22 data.

I3ParticleMCPrimaryWeightFiller 
This class provides the methods to fill I3Particles with MC primary spectrum
weights.

I3ParticleMillipedeBuilder 
Build IceCube Millipede results reading from the f2k data via standard input.

I3ParticlePropMatrixFiller 
This class provides the methods to fill I3Particles with
the pregenerated propagation matrix.

I3ParticleWeightFiller 
This class provides the methods to fill I3Particles with GZK and
Atmospheric muon weights.

JaidaPlotStyleSetter  
LDPcalculator 
Calculate either the model rejection factor (MRF)
or the least signal discovery potential (LDP).

MakeBootstrapBGSpectrum  
MakeEffAreaTable 
Calculate the inice effective area table
by running I3ParticleFlux.getInIceEffectiveArea(double logEnergy,
double cosZenith, int flavor, int doublet).

MakeQuickPropagationYieldMap 
Calculate the neutrino detection yield by running QuickProrpagationMatrixFlux
and Make a Map(log(Neutrino Energy) Map(cross section, yield)).

MergeI3Particles  
ModelNormalizationCalculatorByPoissonBinnedLikelihood 
Calculate the pvalue on a given neutrino model based on the binned Poisson likelihood.

ModelParaPvalueCalculatorByPoissonBinnedLH 
Calculate the pvalue on given neutrino model parameters based on the binned Poisson likelihood
for estimating the confidence interval.

ModelPvalueCalculatorByPoissonBinnedLikelihood 
Calculate the pvalue on a given neutrino model based on the binned Poisson likelihood.

ModelTestByPoissonBinnedLikelihoodFactory 
A collection of the methods for the GZK (or astro) neutrino model tests
based upon the likelihood ratio of the poisson binned likelihood.

ModelULCalculatorByPoissonBinnedLikelihood 
Calculate the upper limit of normalization on a given neutrino model based on the binned Poisson likelihood.

NeutrinoEffAreaTable 
Neutrino Effective Area is calculated from the numerical table
stored in the classes/iceCube/uhe/analysis.

NeutrinoExposureTable 
Neutrino Exposure [cm^2 sec sr] is calculated from the numerical table
stored in the classes/iceCube/uhe/analysis.

NeutrinoExposureTableHESE 
Neutrino Exposure by the HESE analysis [cm^2 sec sr] is calculated from the numerical table
stored in the classes/iceCube/uhe/analysis.

NPEthresholdOptimizer 
Optimize NPE threshold to minimize either the model rejection potential
or the signal discovery potential.

PlotAllSpectrum  
PlotChi2ByJaidaHisto  
PlotCRSpectrum  
PlotEventNumberRatioByJaidaHisto  
PlotIC22BG2DSpectrum  
PlotIC22SIG2DSpectrum  
PlotIC22Spectrum  
PlotSpectrumByJaidaHisto  
PoissonBinnedLikelihoodMapBuilder 
Build the Map to contain the PoissonBinnedLikelihoodCalculator
reading from the f2k data via standard input.

PropagationMatrixDrawer 
This class makes a 2D/1D histogram of Energy correlations
of Inice Energy Vs Surface Energy
(using PropagationMatrixFactory.java in the propahgation package)
Written by S.

PropagationMatrixFlux 
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 
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.

QuickPropagationMatrixFlux 
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.

RunAnalysis  
RunAtmMuonBundleCombinedFitter  
RunAtmMuonBundleFitter  
RunBGOnlyHypothesisTestByBinnedLikelihood 
Run the bg only hypothesis test based on the binned Poisson likelihood.

RunI3ParticleBuilder 
Run I3ParticleBulder to generate a series of I3Particles.

RunI3ParticleFlux 
Calculate the detectable Neutrino flux [GeV/cm^2 sec sr] at the surface
by running I3ParticleFlux.

RunJaidaAnalysis  
RunJaidaAnalysisIC22  
RunJaidaAnalysisIC9  
RunJulietMillipede  
RunModelTestByPoissonBinnedLikelihood 
Run the neutrino model test based on the binned Poisson likelihood.

RunPropagationMatrixFlux 
Calculate the detectable Neutrino flux [GeV/cm^2 sec sr] at the surface
by running ProrpagationMatrixFlux.

RunQuickPropagationMatrixFlux 
Calculate the detectable Neutrino flux [GeV/cm^2 sec sr] at the surface
by running ProrpagationMatrixFlux.

RunSignalVsNuisanceSignal 
Run the pvalue distribution for pvalue of the signal hypothesis
against alternative signal hypothesis.

YieldAnalysisFactory 
This class makes and handles histograms of
the neutrino detection yield[cm^2 sec sr] generated by
DumpQuickPropagationMatrixYield class
and neutrino cross section.

This package contains the classes for the IceCube ExtremelyHigh Energy Neutrino analysis with the I3Particlebased data. The factory class "I3ParticleAnalysisFactory" provides tools for the data analysis.