source: trunk/MagicSoft/Mars/mcalib/MCalibrationChargeBlindPix.cc@ 3631

Last change on this file since 3631 was 3620, checked in by gaug, 21 years ago
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1/* ======================================================================== *\
2!
3! *
4! * This file is part of MARS, the MAGIC Analysis and Reconstruction
5! * Software. It is distributed to you in the hope that it can be a useful
6! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
7! * It is distributed WITHOUT ANY WARRANTY.
8! *
9! * Permission to use, copy, modify and distribute this software and its
10! * documentation for any purpose is hereby granted without fee,
11! * provided that the above copyright notice appear in all copies and
12! * that both that copyright notice and this permission notice appear
13! * in supporting documentation. It is provided "as is" without express
14! * or implied warranty.
15! *
16!
17!
18! Author(s): Markus Gaug 02/2004 <mailto:markus@ifae.es>
19!
20! Copyright: MAGIC Software Development, 2000-2004
21!
22!
23\* ======================================================================== */
24
25/////////////////////////////////////////////////////////////////////////////
26// //
27// MCalibrationChargeBlindPix //
28// //
29// This is the storage container to hold informations about the calibration//
30// blind pixel //
31// //
32/////////////////////////////////////////////////////////////////////////////
33#include "MCalibrationChargeBlindPix.h"
34
35#include <TH1.h>
36
37#include "MLog.h"
38#include "MLogManip.h"
39
40ClassImp(MCalibrationChargeBlindPix);
41
42using namespace std;
43const Float_t MCalibrationChargeBlindPix::gkBlindPixelArea = 100;
44// Average QE of Blind Pixel (three colours)
45const Float_t MCalibrationChargeBlindPix::gkBlindPixelQEGreen = 0.154;
46const Float_t MCalibrationChargeBlindPix::gkBlindPixelQEBlue = 0.226;
47const Float_t MCalibrationChargeBlindPix::gkBlindPixelQEUV = 0.247;
48const Float_t MCalibrationChargeBlindPix::gkBlindPixelQECT1 = 0.247;
49// Average QE Error of Blind Pixel (three colours)
50const Float_t MCalibrationChargeBlindPix::gkBlindPixelQEGreenErr = 0.015;
51const Float_t MCalibrationChargeBlindPix::gkBlindPixelQEBlueErr = 0.02;
52const Float_t MCalibrationChargeBlindPix::gkBlindPixelQEUVErr = 0.02;
53const Float_t MCalibrationChargeBlindPix::gkBlindPixelQECT1Err = 0.02;
54// Attenuation factor Blind Pixel (three colours)
55const Float_t MCalibrationChargeBlindPix::gkBlindPixelAttGreen = 1.97;
56const Float_t MCalibrationChargeBlindPix::gkBlindPixelAttBlue = 1.96;
57const Float_t MCalibrationChargeBlindPix::gkBlindPixelAttUV = 1.95;
58const Float_t MCalibrationChargeBlindPix::gkBlindPixelAttCT1 = 1.95;
59
60const Float_t MCalibrationChargeBlindPix::fgLambdaCheckLimit = 0.2;
61const Float_t MCalibrationChargeBlindPix::fgLambdaErrLimit = 0.2;
62// --------------------------------------------------------------------------
63//
64// Default Constructor.
65//
66MCalibrationChargeBlindPix::MCalibrationChargeBlindPix(const char *name, const char *title)
67{
68
69 fName = name ? name : "MCalibrationChargeBlindPix";
70 fTitle = title ? title : "Container of the fit results of the blind pixel";
71
72 SetLambdaCheckLimit();
73 SetLambdaErrLimit();
74
75 Clear();
76}
77
78
79// ------------------------------------------------------------------------
80//
81// Invalidate values
82//
83void MCalibrationChargeBlindPix::Clear(Option_t *o)
84{
85
86 fLambda = -1.;
87 fLambdaCheck = -1.;
88 fMu0 = -1.;
89 fMu1 = -1.;
90 fSigma0 = -1.;
91 fSigma1 = -1.;
92 fLambdaErr = -1.;
93 fMu0Err = -1.;
94 fMu1Err = -1.;
95 fSigma0Err = -1.;
96 fSigma1Err = -1.;
97
98 fMeanFluxInsidePlexiglass = -1.;
99 fMeanFluxErrInsidePlexiglass = -1.;
100
101 SetOscillating ( kFALSE );
102 SetExcluded ( kFALSE );
103 SetChargeFitValid ( kFALSE );
104 SetPedestalFitOK ( kFALSE );
105 SetSinglePheFitOK ( kFALSE );
106 SetFluxInsidePlexiglassAvailable ( kFALSE );
107
108}
109
110void MCalibrationChargeBlindPix::SetFluxInsidePlexiglassAvailable( const Bool_t b)
111{
112 b ? SETBIT(fFlags,kFluxInsidePlexiglassAvailable) : CLRBIT(fFlags,kFluxInsidePlexiglassAvailable);
113}
114
115void MCalibrationChargeBlindPix::SetOscillating( const Bool_t b)
116{
117 b ? SETBIT(fFlags,kOscillating) : CLRBIT(fFlags,kOscillating);
118}
119
120void MCalibrationChargeBlindPix::SetChargeFitValid( const Bool_t b)
121{
122 b ? SETBIT(fFlags,kChargeFitValid) : CLRBIT(fFlags,kChargeFitValid);
123}
124void MCalibrationChargeBlindPix::SetPedestalFitOK( const Bool_t b)
125{
126 b ? SETBIT(fFlags,kPedestalFitOK) : CLRBIT(fFlags,kPedestalFitOK);
127}
128
129void MCalibrationChargeBlindPix::SetSinglePheFitOK( const Bool_t b)
130{
131 b ? SETBIT(fFlags,kSinglePheFitOK) : CLRBIT(fFlags,kSinglePheFitOK);
132}
133
134void MCalibrationChargeBlindPix::SetExcluded( const Bool_t b)
135{
136 b ? SETBIT(fFlags,kExcluded) : CLRBIT(fFlags,kExcluded);
137}
138
139Bool_t MCalibrationChargeBlindPix::IsExcluded() const
140{
141 return TESTBIT(fFlags,kExcluded);
142}
143
144Bool_t MCalibrationChargeBlindPix::IsOscillating() const
145{
146 return TESTBIT(fFlags,kOscillating);
147}
148
149Bool_t MCalibrationChargeBlindPix::IsChargeFitValid() const
150{
151 return TESTBIT(fFlags,kChargeFitValid);
152}
153
154Bool_t MCalibrationChargeBlindPix::IsPedestalFitOK() const
155{
156 return TESTBIT(fFlags,kPedestalFitOK);
157}
158
159Bool_t MCalibrationChargeBlindPix::IsSinglePheFitOK() const
160{
161 return TESTBIT(fFlags,kSinglePheFitOK);
162}
163
164Bool_t MCalibrationChargeBlindPix::IsFluxInsidePlexiglassAvailable() const
165{
166 return TESTBIT(fFlags,kFluxInsidePlexiglassAvailable);
167}
168
169
170//
171// The check return kTRUE if:
172//
173// 1) fLambda and fLambdaCheck are separated relatively by fLambdaCheckLimit
174// 2) BlindPixel has an fLambdaErr smaller than fLambdaErrLimit
175//
176Bool_t MCalibrationChargeBlindPix::CheckChargeFitValidity()
177{
178
179 if (2.*(fLambdaCheck-fLambda)/(fLambdaCheck+fLambda) < fLambdaCheckLimit)
180 {
181 *fLog << warn << "WARNING: Lambda and Lambda-Check differ by more than "
182 << fLambdaCheckLimit << " in the Blind Pixel " << endl;
183 return kFALSE;
184 }
185
186 if (fLambdaErr < fLambdaErrLimit)
187 {
188 *fLog << warn << "WARNING: Error of Fitted Lambda is greater than "
189 << fLambdaErrLimit << " in Blind Pixel " << endl;
190 return kFALSE;
191 }
192
193 return kTRUE;
194}
195
196// --------------------------------------------------------------------------
197//
198//
199//
200Bool_t MCalibrationChargeBlindPix::CalcFluxInsidePlexiglass()
201{
202
203 if (IsChargeFitValid())
204 return kFALSE;
205
206
207 //
208 // Start calculation of number of photons
209 //
210 // The blind pixel has exactly 100 mm^2 area (with negligible error),
211 //
212 fMeanFluxInsidePlexiglass = fLambda*gkBlindPixelArea;
213
214 // Start calculation of number of photons relative Variance
215 fMeanFluxErrInsidePlexiglass = fLambdaErr*fLambdaErr/fLambda/fLambda;
216
217 switch (fColor)
218 {
219 case kGREEN:
220 fMeanFluxInsidePlexiglass /= gkBlindPixelQEGreen;
221 fMeanFluxErrInsidePlexiglass += gkBlindPixelQEGreenErr*gkBlindPixelQEGreenErr
222 / gkBlindPixelQEGreen / gkBlindPixelQEGreen;
223
224 fMeanFluxInsidePlexiglass *= TMath::Power(10,gkBlindPixelAttGreen); // correct for absorption
225 // attenuation has negligible error
226 break;
227 case kBLUE:
228 fMeanFluxInsidePlexiglass /= gkBlindPixelQEBlue;
229 fMeanFluxErrInsidePlexiglass += gkBlindPixelQEBlueErr*gkBlindPixelQEBlueErr
230 / gkBlindPixelQEBlue / gkBlindPixelQEBlue;
231
232 fMeanFluxInsidePlexiglass *= TMath::Power(10,gkBlindPixelAttBlue); // correct for absorption
233 // attenuation has negligible error
234 break;
235 case kUV:
236 fMeanFluxInsidePlexiglass /= gkBlindPixelQEUV;
237 fMeanFluxErrInsidePlexiglass += gkBlindPixelQEUVErr*gkBlindPixelQEUVErr
238 / gkBlindPixelQEUV / gkBlindPixelQEUV;
239
240 fMeanFluxInsidePlexiglass *= TMath::Power(10,gkBlindPixelAttUV); // correct for absorption
241 // attenuation has negligible error
242 break;
243 case kCT1:
244 default:
245 fMeanFluxInsidePlexiglass /= gkBlindPixelQECT1;
246 fMeanFluxErrInsidePlexiglass += gkBlindPixelQECT1Err*gkBlindPixelQECT1Err
247 / gkBlindPixelQECT1 / gkBlindPixelQECT1;
248
249 fMeanFluxInsidePlexiglass *= TMath::Power(10,gkBlindPixelAttCT1); // correct for absorption
250 // attenuation has negligible error
251 break;
252 }
253
254 *fLog << inf << endl;
255 *fLog << inf << " Photon flux [ph/mm^2] inside Plexiglass: "
256 << fMeanFluxInsidePlexiglass << endl;
257
258 if (fMeanFluxInsidePlexiglass < 0.)
259 return kFALSE;
260
261 if (fMeanFluxErrInsidePlexiglass < 0.)
262 return kFALSE;
263
264 SetFluxInsidePlexiglassAvailable(kTRUE);
265
266 // Finish calculation of errors -> convert from relative variance to absolute error
267 fMeanFluxErrInsidePlexiglass = TMath::Sqrt(fMeanFluxErrInsidePlexiglass);
268 fMeanFluxErrInsidePlexiglass *= fMeanFluxInsidePlexiglass;
269
270 *fLog << inf << " Error on photon flux [ph/mm^2] inside Plexiglass: "
271 << fMeanFluxErrInsidePlexiglass << endl;
272 *fLog << inf << endl;
273
274 return kTRUE;
275}
276
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