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source: trunk/MagicSoft/Mars/mcalib/MCalibrationChargeBlindPix.h@ 3963

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Last change on this file since 3963 was 3699, checked in by gaug, 20 years ago
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File size: 6.0 KB

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1	#ifndef MARS_MCalibrationChargeBlindPix
2	#define MARS_MCalibrationChargeBlindPix
3
4	#ifndef MARS_MCalibrationChargeCam
5	#include "MCalibrationChargeCam.h"
6	#endif
7
8	#ifndef MARS_MCalibrationChargePix
9	#include "MCalibrationChargePix.h"
10	#endif
11
12	class MCalibrationChargeBlindPix : public MCalibrationChargePix
13	{
14	private:
15
16	static const Float_t gkBlindPixelArea; //! The Blind Pixel area in mm^2
17	static const Float_t gkBlindPixelAttGreen; //! Attenuation Filter at 520 nm
18	static const Float_t gkBlindPixelAttBlue ; //! Attenuation Filter at 460 nm
19	static const Float_t gkBlindPixelAttUV ; //! Attenuation Filter at 370 nm
20	static const Float_t gkBlindPixelAttCT1 ; //! Attenuation Filter at 370 nm
21	static const Float_t gkBlindPixelQEGreen; //! Quantum Efficiency at 520 nm
22	static const Float_t gkBlindPixelQEBlue ; //! Quantum Efficiency at 460 nm
23	static const Float_t gkBlindPixelQEUV ; //! Quantum Efficiency at 370 nm
24	static const Float_t gkBlindPixelQECT1 ; //! Quantum Efficiency at 370 nm
25	static const Float_t gkBlindPixelQEGreenErr; //! Uncertainty QE at 520 nm
26	static const Float_t gkBlindPixelQEBlueErr ; //! Uncertainty QE at 460 nm
27	static const Float_t gkBlindPixelQEUVErr ; //! Uncertainty QE at 370 nm
28	static const Float_t gkBlindPixelQECT1Err ; //! Uncertainty QE at 370 nmu
29
30	Float_t fLambda; // Mean Poisson fit
31	Float_t fLambdaCheck; // Mean Pedestal Check (Gauss) fit
32	Float_t fLambdaCheckErr; // Error mean pedestal Check fit
33	Float_t fLambdaVar; // Variance lambda Poisson fit
34	Float_t fFluxInsidePlexiglass; // Number photons in INNER PIXEL inside the plexiglass
35	Float_t fFluxInsidePlexiglassVar; // Variance number of photons in INNER PIXEL
36	Float_t fMu0; // Position pedestal peak
37	Float_t fMu0Err; // Error pos. pedestal-peak
38	Float_t fMu1; // Position first photo-electron peak
39	Float_t fMu1Err; // Error pos. first photo-electon peak
40	Float_t fSigma0; // Width pedestal peak
41	Float_t fSigma0Err; // Error width pedestal peak
42	Float_t fSigma1; // Width first photo-electron peak
43	Float_t fSigma1Err; // Error width first photo-electron peak
44
45	enum { kOscillating, kPedestalFitOK, kSinglePheFitOK, kChargeFitValid,
46	kFluxInsidePlexiglassAvailable };
47
48	MCalibrationCam::PulserColor_t fColor;
49
50	const Float_t GetBlindPixelQEGreenRelVar() const;
51	const Float_t GetBlindPixelQEBlueRelVar () const;
52	const Float_t GetBlindPixelQEUVRelVar () const;
53	const Float_t GetBlindPixelQECT1RelVar () const;
54
55	public:
56
57	MCalibrationChargeBlindPix(const char name=NULL, const char title=NULL);
58	~MCalibrationChargeBlindPix() {}
59
60	Bool_t CalcFluxInsidePlexiglass();
61	void Clear(Option_t *o="");
62
63	// Getters
64	MCalibrationCam::PulserColor_t GetColor () const { return fColor; }
65	Float_t GetLambda () const { return fLambda; }
66	Float_t GetLambdaErr () const;
67	Float_t GetLambdaRelVar () const;
68	Float_t GetLambdaCheck () const { return fLambdaCheck; }
69	Float_t GetLambdaCheckErr () const { return fLambdaCheckErr; }
70	Float_t GetFluxInsidePlexiglass () const { return fFluxInsidePlexiglass; }
71	Float_t GetFluxInsidePlexiglassErr () const;
72	Float_t GetFluxInsidePlexiglassRelVar () const;
73	Float_t GetMu0 () const { return fMu0; }
74	Float_t GetMu0Err () const { return fMu0Err; }
75	Float_t GetMu1 () const { return fMu1; }
76	Float_t GetMu1Err () const { return fMu1Err; }
77	Float_t GetSigma0 () const { return fSigma0; }
78	Float_t GetSigma0Err () const { return fSigma0Err; }
79	Float_t GetSigma1 () const { return fSigma1; }
80	Float_t GetSigma1Err () const { return fSigma1Err; }
81
82	Bool_t IsOscillating () const;
83	Bool_t IsChargeFitValid () const;
84	Bool_t IsPedestalFitOK () const;
85	Bool_t IsSinglePheFitOK () const;
86	Bool_t IsFluxInsidePlexiglassAvailable () const;
87
88	// Setters
89	void SetColor ( const MCalibrationCam::PulserColor_t color ) { fColor = color; }
90	void SetLambda ( const Float_t f ) { fLambda = f; }
91	void SetLambdaVar ( const Float_t f ) { fLambdaVar = f; }
92	void SetLambdaCheck ( const Float_t f ) { fLambdaCheck = f; }
93	void SetLambdaCheckErr ( const Float_t f ) { fLambdaCheckErr = f; }
94	void SetMu0 ( const Float_t f ) { fMu0 = f; }
95	void SetMu0Err ( const Float_t f ) { fMu0Err = f; }
96	void SetMu1 ( const Float_t f ) { fMu1 = f; }
97	void SetMu1Err ( const Float_t f ) { fMu1Err = f; }
98	void SetSigma0 ( const Float_t f ) { fSigma0 = f; }
99	void SetSigma0Err ( const Float_t f ) { fSigma0Err = f; }
100	void SetSigma1 ( const Float_t f ) { fSigma1 = f; }
101	void SetSigma1Err ( const Float_t f ) { fSigma1Err = f; }
102
103	void SetOscillating ( const Bool_t b=kTRUE );
104	void SetChargeFitValid ( const Bool_t b=kTRUE );
105	void SetPedestalFitOK ( const Bool_t b=kTRUE );
106	void SetSinglePheFitOK ( const Bool_t b=kTRUE );
107	void SetFluxInsidePlexiglassAvailable( const Bool_t b=kTRUE);
108
109	ClassDef(MCalibrationChargeBlindPix, 1) // Container Charge Calibration Results Blind Pixel
110	};
111
112	#endif
113
114
115
116

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