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Timestamp:
02/24/04 04:10:38 (21 years ago)
Author:
gaug
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*** empty log message ***
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1 edited

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  • trunk/MagicSoft/Mars/mcalib/MCalibrationChargePix.h

    r3264 r3271  
    2121  static const Float_t gkFFactorErr;             // The laboratory F-factor Error of the PMTs
    2222
    23   static const Float_t fgChargeLimit;       // The default limit (in units of PedRMS) for acceptance of the fitted mean charge
    24   static const Float_t fgChargeErrLimit;    // The default limit (in units of PedRMS) for acceptance of the fitted charge sigma
    25   static const Float_t fgChargeRelErrLimit; // The default limit (in units of Error of fitted charge) for acceptance of the fitted mean 
     23  static const Float_t fgChargeLimit;            // The default limit (in units of PedRMS) for acceptance of the fitted mean charge
     24  static const Float_t fgChargeErrLimit;         // The default limit (in units of PedRMS) for acceptance of the fitted charge sigma
     25  static const Float_t fgChargeRelErrLimit;      // The default limit (in units of Error of fitted charge) for acceptance of the fitted mean 
    2626
    2727  static const Float_t fgTimeLimit;              // The limit (in units of FADC slices) for acceptance of the fitted time
     
    4040  Float_t fElectronicPedRmsErr;             // The error of the pure electronic component of the RMS
    4141
    42   Int_t   fPixId;                                // the pixel Id
    43 
    44   UInt_t  fFlags;                                // Flag for the set bits
     42  Int_t   fPixId;                           // the pixel Id
     43
     44  UInt_t  fFlags;                           // Flag for the set bits
    4545 
    46   Float_t fAverageQE;                            // The average quantum efficieny (see Class description)
    47   Float_t fAverageQEErr;                         // The error of the average quantum efficieny (see Class description)
    48  
    49   Float_t fHiGainMeanCharge;                               // The mean reduced charge after the fit
    50   Float_t fHiGainMeanChargeErr;                            // The error of reduced mean charge after the fit
    51   Float_t fHiGainSigmaCharge;                          // The sigma of the mean charge after the fit
    52   Float_t fHiGainSigmaChargeErr;                       // The error of the sigma of the mean charge after the fit
    53   Float_t fHiGainChargeProb;                           // The probability of the fit function
    54 
    55   Float_t fLoGainMeanCharge;                           // The mean reduced charge after the fit
    56   Float_t fLoGainMeanChargeErr;                        // The error of reduced mean charge after the fit
    57   Float_t fLoGainSigmaCharge;                          // The sigma of the mean charge after the fit
    58   Float_t fLoGainSigmaChargeErr;                       // The error of the sigma of the mean charge after the fit
    59   Float_t fLoGainChargeProb;                           // The probability of the fit function
    60 
    61   Float_t fRSigmaCharge;                               // The reduced squares of sigmas after the fit
    62   Float_t fRSigmaChargeErr;                            // The reduced squares of sigmas after the fit 
    63 
    64   Float_t fPed;                                        // The mean pedestal (from MPedestalPix) times number of FADC slices
    65   Float_t fPedErr;                                     // The error of the pedestal
    66   Float_t fPedRms;                                     // The pedestal  RMS (from MPedestalPix) times sqrt of number of FADC slices
    67 
    68   Float_t fLoGainPedRms;                               // The pedestal  RMS of the low gain
    69   Float_t fLoGainPedRmsErr;                            // The pedestal  RMS Error of the low gain
    70 
    71   Float_t fAbsTimeMean;                                // The mean absolute arrival time
    72   Float_t fAbsTimeRms;                                 // The rms of the mean absolute arrival time
    73  
    74   Byte_t  fTimeFirstHiGain;                            // The first used FADC slice
    75   Byte_t  fTimeLastHiGain;                             // The last used FADC slice
    76  
    77   Byte_t  fTimeFirstLoGain;                            // The first used FADC slice
    78   Byte_t  fTimeLastLoGain;                             // The last used FADC slice
    79  
    80   Float_t fPheFFactorMethod;                     // The number of Phe's calculated (F-factor method)
    81   Float_t fPheFFactorMethodErr;                  // The error on the number of Phe's calculated (F-factor method)
    82 
    83   Float_t fMeanConversionFFactorMethod;          // The conversion factor to Phe's (F-factor method)
    84   Float_t fMeanConversionBlindPixelMethod;       // The conversion factor to Ph's (Blind Pixel method)
    85   Float_t fMeanConversionPINDiodeMethod;         // The conversion factor to Ph's (PIN Diode method)
    86   Float_t fMeanConversionCombinedMethod;         // The conversion factor to Ph's (all methods combined)
    87 
    88   Float_t fConversionFFactorMethodErr;           // The error of the conversion factor to Phe's (F-factor method)
    89   Float_t fConversionBlindPixelMethodErr;        // The error of the conversion factor to Ph's (Blind Pixel method)
    90   Float_t fConversionPINDiodeMethodErr;          // The error of the conversion factor to Ph's (PIN Diode method)
    91   Float_t fConversionCombinedMethodErr;          // The error of the conversion factor to Ph's (all methods combined)
    92 
    93   Float_t fSigmaConversionFFactorMethod;         // The sigma of conversion factor to Phe's (F-factor method)
    94   Float_t fSigmaConversionBlindPixelMethod;      // The conversion factor to Ph's (Blind Pixel method)
    95   Float_t fSigmaConversionPINDiodeMethod;        // The conversion factor to Ph's (PIN Diode method)
    96   Float_t fSigmaConversionCombinedMethod;        // The conversion factor to Ph's (all methods combined)
     46  Float_t fAverageQE;                       // The average quantum efficieny (see Class description)
     47  Float_t fAverageQEErr;                    // The error of the average quantum efficieny (see Class description)
     48 
     49  Float_t fHiGainMeanCharge;                // The mean reduced charge after the fit
     50  Float_t fHiGainMeanChargeErr;             // The error of reduced mean charge after the fit
     51  Float_t fHiGainSigmaCharge;               // The sigma of the mean charge after the fit
     52  Float_t fHiGainSigmaChargeErr;            // The error of the sigma of the mean charge after the fit
     53  Float_t fHiGainChargeProb;                // The probability of the fit function
     54
     55  Float_t fLoGainMeanCharge;                // The mean reduced charge after the fit
     56  Float_t fLoGainMeanChargeErr;             // The error of reduced mean charge after the fit
     57  Float_t fLoGainSigmaCharge;               // The sigma of the mean charge after the fit
     58  Float_t fLoGainSigmaChargeErr;            // The error of the sigma of the mean charge after the fit
     59  Float_t fLoGainChargeProb;                // The probability of the fit function
     60
     61  Float_t fRSigmaCharge;                    // The reduced squares of sigmas after the fit
     62  Float_t fRSigmaChargeErr;                 // The reduced squares of sigmas after the fit 
     63
     64  Float_t fPed;                             // The mean pedestal (from MPedestalPix) times number of FADC slices
     65  Float_t fPedErr;                          // The error of the pedestal
     66  Float_t fPedRms;                          // The pedestal  RMS (from MPedestalPix) times sqrt of number of FADC slices
     67
     68  Float_t fLoGainPedRms;                    // The pedestal  RMS of the low gain
     69  Float_t fLoGainPedRmsErr;                 // The pedestal  RMS Error of the low gain
     70
     71  Float_t fAbsTimeMean;                     // The mean absolute arrival time
     72  Float_t fAbsTimeRms;                      // The rms of the mean absolute arrival time
     73 
     74  Byte_t  fTimeFirstHiGain;                 // The first used FADC slice
     75  Byte_t  fTimeLastHiGain;                  // The last used FADC slice
     76 
     77  Byte_t  fTimeFirstLoGain;                 // The first used FADC slice
     78  Byte_t  fTimeLastLoGain;                  // The last used FADC slice
     79 
     80  Float_t fPheFFactorMethod;                // The number of Phe's calculated (F-factor method)
     81  Float_t fPheFFactorMethodErr;             // The error on the number of Phe's calculated (F-factor method)
     82
     83  Float_t fMeanConversionFFactorMethod;     // The conversion factor to Phe's (F-factor method)
     84  Float_t fMeanConversionBlindPixelMethod;  // The conversion factor to Ph's (Blind Pixel method)
     85  Float_t fMeanConversionPINDiodeMethod;    // The conversion factor to Ph's (PIN Diode method)
     86  Float_t fMeanConversionCombinedMethod;    // The conversion factor to Ph's (all methods combined)
     87
     88  Float_t fConversionFFactorMethodErr;      // The error of the conversion factor to Phe's (F-factor method)
     89  Float_t fConversionBlindPixelMethodErr;   // The error of the conversion factor to Ph's (Blind Pixel method)
     90  Float_t fConversionPINDiodeMethodErr;     // The error of the conversion factor to Ph's (PIN Diode method)
     91  Float_t fConversionCombinedMethodErr;     // The error of the conversion factor to Ph's (all methods combined)
     92
     93  Float_t fSigmaConversionFFactorMethod;    // The sigma of conversion factor to Phe's (F-factor method)
     94  Float_t fSigmaConversionBlindPixelMethod; // The conversion factor to Ph's (Blind Pixel method)
     95  Float_t fSigmaConversionPINDiodeMethod;   // The conversion factor to Ph's (PIN Diode method)
     96  Float_t fSigmaConversionCombinedMethod;   // The conversion factor to Ph's (all methods combined)
    9797 
    98   Float_t fTotalFFactorFFactorMethod;            // The total F-Factor to Ph's (F-factor method)
    99   Float_t fTotalFFactorBlindPixelMethod;         // The total F-Factor to Ph's (Blind Pixel method)
    100   Float_t fTotalFFactorPINDiodeMethod;           // The total F-Factor to Ph's (PIN Diode method)
    101   Float_t fTotalFFactorCombinedMethod;           // The total F-Factor to Ph's (all methods combined)
     98  Float_t fTotalFFactorFFactorMethod;       // The total F-Factor to Ph's (F-factor method)
     99  Float_t fTotalFFactorBlindPixelMethod;    // The total F-Factor to Ph's (Blind Pixel method)
     100  Float_t fTotalFFactorPINDiodeMethod;      // The total F-Factor to Ph's (PIN Diode method)
     101  Float_t fTotalFFactorCombinedMethod;      // The total F-Factor to Ph's (all methods combined)
    102102 
    103103  Float_t fTotalFFactorErrFFactorMethod;         // The error of the total F-Factor to Ph's (F-factor method)
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