#ifndef MARS_MCalibrationChargeBlindPix #define MARS_MCalibrationChargeBlindPix #ifndef ROOT_TArrayF #include #endif #ifndef MARS_MCalibrationCam #include "MCalibrationCam.h" #endif #ifndef MARS_MCalibrationPix #include "MCalibrationPix.h" #endif class MCalibrationChargeBlindPix : public MCalibrationPix { private: static const Float_t fgArea; //! The Blind Pixel area in mm^2 static const Float_t fgAttGreen; //! Attenuation Filter at 520 nm static const Float_t fgAttBlue ; //! Attenuation Filter at 460 nm static const Float_t fgAttUV ; //! Attenuation Filter at 370 nm static const Float_t fgAttCT1 ; //! Attenuation Filter at 370 nm static const Float_t fgAttErr; //! Error Att. Filter at all w.l. static const Float_t fgQEGreen; //! Quantum Efficiency at 520 nm static const Float_t fgQEBlue ; //! Quantum Efficiency at 460 nm static const Float_t fgQEUV ; //! Quantum Efficiency at 370 nm static const Float_t fgQECT1 ; //! Quantum Efficiency at 370 nm static const Float_t fgQEErrGreen; //! Uncertainty QEUnCoated at 520 nm static const Float_t fgQEErrBlue; //! Uncertainty QEUnCoated at 460 nm static const Float_t fgQEErrUV ; //! Uncertainty QEUnCoated at 370 nm static const Float_t fgQEErrCT1 ; //! Uncertainty QEUnCoated at 370 nmu static const Float_t fgCollEffGreen; //! Collecttion Efficiency static const Float_t fgCollEffBlue; //! Collecttion Efficiency static const Float_t fgCollEffUV; //! Collecttion Efficiency static const Float_t fgCollEffCT1; //! Collecttion Efficiency static const Float_t fgCollEffErr; //! Uncertainty Collection Efficiency Float_t fArea; // Blind Pixel Area TArrayF fAtt; // Attenuation filter (per color) TArrayF fAttErr; // Error attnuation filter (per color) TArrayF fQE; // Quantum eff. (per color) TArrayF fQEErr; // Error Quantum eff. (per color) TArrayF fCollEff; // Coll eff. (per color) TArrayF fCollEffErr; // Error coll. eff. (per color) Float_t fLambda; // Mean Poisson fit Float_t fLambdaCheck; // Mean Pedestal Check (Gauss) fit Float_t fLambdaCheckErr; // Error mean pedestal Check fit Float_t fLambdaVar; // Variance lambda Poisson fit Float_t fFluxInsidePlexiglass; // Number photons in INNER PIXEL inside the plexiglass Float_t fFluxInsidePlexiglassVar; // Variance number of photons in INNER PIXEL Float_t fMu0; // Position pedestal peak Float_t fMu0Err; // Error pos. pedestal-peak Float_t fMu1; // Position first photo-electron peak Float_t fMu1Err; // Error pos. first photo-electon peak Float_t fSigma0; // Width pedestal peak Float_t fSigma0Err; // Error width pedestal peak Float_t fSigma1; // Width first photo-electron peak Float_t fSigma1Err; // Error width first photo-electron peak enum { kOscillating, kPedestalFitOK, kSinglePheFitOK, kChargeFitValid, kFluxInsidePlexiglassAvailable }; // Possible validity flags MCalibrationCam::PulserColor_t fColor; // Colour of the used pulser light public: MCalibrationChargeBlindPix(const char *name=NULL, const char *title=NULL); Bool_t CalcFluxInsidePlexiglass(); void Clear(Option_t *o=""); void Copy(TObject& object) const; // Getters const Float_t GetAtt () const; const Float_t GetAttRelVar () const; const Float_t GetQE () const; const Float_t GetQERelVar () const; const Float_t GetCollEff () const; const Float_t GetCollEffRelVar() const; const MCalibrationCam::PulserColor_t GetColor () const { return fColor; } const Float_t GetLambda () const { return fLambda; } const Float_t GetLambdaErr () const; const Float_t GetLambdaRelVar () const; const Float_t GetLambdaCheck () const { return fLambdaCheck; } const Float_t GetLambdaCheckErr () const { return fLambdaCheckErr; } const Float_t GetFluxInsidePlexiglass () const { return fFluxInsidePlexiglass; } const Float_t GetFluxInsidePlexiglassErr () const; const Float_t GetFluxInsidePlexiglassRelVar () const; const Float_t GetMu0 () const { return fMu0; } const Float_t GetMu0Err () const { return fMu0Err; } const Float_t GetMu1 () const { return fMu1; } const Float_t GetMu1Err () const { return fMu1Err; } const Float_t GetSigma0 () const { return fSigma0; } const Float_t GetSigma0Err () const { return fSigma0Err; } const Float_t GetSigma1 () const { return fSigma1; } const Float_t GetSigma1Err () const { return fSigma1Err; } const Bool_t IsOscillating () const; const Bool_t IsChargeFitValid () const; const Bool_t IsPedestalFitOK () const; const Bool_t IsSinglePheFitOK () const; const Bool_t IsFluxInsidePlexiglassAvailable () const; void Print(Option_t *opt=NULL) const; // Setters void SetArea ( Float_t f ) { fArea = f; } void SetAtt ( Float_t f, const MCalibrationCam::PulserColor_t col ) { fAtt [col] = f; } void SetAttErr ( Float_t f, const MCalibrationCam::PulserColor_t col ) { fAttErr [col] = f; } void SetQE ( Float_t f, const MCalibrationCam::PulserColor_t col ) { fQE [col] = f; } void SetQEErr ( Float_t f, const MCalibrationCam::PulserColor_t col ) { fQEErr [col] = f; } void SetCollEff ( Float_t f, const MCalibrationCam::PulserColor_t col ) { fCollEff [col] = f; } void SetCollEffErr( Float_t f, const MCalibrationCam::PulserColor_t col ) { fCollEffErr[col] = f; } void SetColor ( const MCalibrationCam::PulserColor_t color ) { fColor = color; } void SetLambda ( const Float_t f ) { fLambda = f; } void SetLambdaVar ( const Float_t f ) { fLambdaVar = f; } void SetLambdaCheck ( const Float_t f ) { fLambdaCheck = f; } void SetLambdaCheckErr ( const Float_t f ) { fLambdaCheckErr = f; } void SetMu0 ( const Float_t f ) { fMu0 = f; } void SetMu0Err ( const Float_t f ) { fMu0Err = f; } void SetMu1 ( const Float_t f ) { fMu1 = f; } void SetMu1Err ( const Float_t f ) { fMu1Err = f; } void SetSigma0 ( const Float_t f ) { fSigma0 = f; } void SetSigma0Err ( const Float_t f ) { fSigma0Err = f; } void SetSigma1 ( const Float_t f ) { fSigma1 = f; } void SetSigma1Err ( const Float_t f ) { fSigma1Err = f; } void SetOscillating ( const Bool_t b=kTRUE ); void SetChargeFitValid ( const Bool_t b=kTRUE ); void SetPedestalFitOK ( const Bool_t b=kTRUE ); void SetSinglePheFitOK ( const Bool_t b=kTRUE ); void SetFluxInsidePlexiglassAvailable( const Bool_t b=kTRUE); ClassDef(MCalibrationChargeBlindPix, 3) // Container Charge Calibration Results Blind Pixel }; #endif