***************************************************************************************** fiTQun parameters for SK1 ***************************************************************************************** < fiTQun.WCSimConfig = SuperK > < fiTQun.WCSimPMTType = 20inchPMT > < fiTQun.WaterAttenuationLengthWCSim = 6800. > If performing single ring fits, which single ring fits should be run? (1:full straight track, 2:upstream track) < fiTQun.DoGamma1RFit = 0 > < fiTQun.DoElectron1RFit = 1 > < fiTQun.DoMuon1RFit = 1 > < fiTQun.DoPionPlus1RFit = 0 > < fiTQun.DoKaonPlus1RFit = 0 > < fiTQun.DoConeGenerator1RFit = 0 > Turn off proton fit by default. The Time PDF files for protons haven't been produced yet < fiTQun.DoProton1RFit = 1 > Up to 2 pi0 fits can be performed, and are turned on/off as follows: < fiTQun.DoPi0Fit = 1 > 0 = off, 1 = standard, 2 = constrained mass < fiTQun.DoPi0Fit2 = 0 > 0 = off, 1 = standard, 2 = constrained mass < fiTQun.DoMSFit = 0 > Toggle multiple-segment fits for muons < fiTQun.DoMRFit = 1 > Set to 1 if you want to run the multi-ring fit(Setting it to n>1 will only fit up to n-ring) < fiTQun.DoMoreMRFit = 11 > Improve the MR fit results obtained above. Set this to 10*Y+X where: X = 0 : Don't perform sequential MR fit Y = 0 : Don't perform simult. vtx & energy fit Turn off proton fit by default. The Time PDF files for protons haven't been produced yet < fiTQun.DoProton1RFit = 0 > < fiTQun.PeakThrWCSim = 9. > < fiTQun.DarkRateWCSim = 4.2 > < fiTQun.QEEffWCSim = 0.105 > < fiTQun.GainCorrFactWCSim = 1. > < fiTQun.QEEffCorrWCSim = 1. > < fiTQun.QmuConvFactWCSim = 1. > < fiTQun.PIDCutEPipa0WCSim = -10. > < fiTQun.PIDCutEPipa1WCSim = 0. > < fiTQun.PIDCutMuEWCSim = 0.25 > < fiTQun.PIDCutMuPip0WCSim = 20. > < fiTQun.PIDCutMuPip1WCSim = 0.2 > < fiTQun.RCCuta0WCSim = 70. > < fiTQun.RCCuta1WCSim = 0. > < fiTQun.RCCut1Ea0WCSim = 87.5 > < fiTQun.RCCut1Mua0WCSim = 140. > < fiTQun.DoBiasCorrection = 0 > Set to 1 if you want to apply empirical bias corrections to fit results < fiTQun.UseScatteredLight = 4 > Flag for scattered light predicted charges (0:off, 1:6D, 2:3D, 4:6D for 1Rfit 3D otherwise) < fiTQun.TotalChargeConstraintWeight = 4. > Weight of the total charge constraint term in the likelihood function. < fiTQun.UseTimeLikelihood = 1 > Set to 1 to use time likelihoods < fiTQun.QECorrElectron1RFit = 1. > < fiTQun.QECorrMuon1RFit = 1. >