/[PAMELA software]/ParDirCalc/QtoInclination.C
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Contents of /ParDirCalc/QtoInclination.C

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Revision 1.2 - (show annotations) (download)
Mon Jan 21 13:06:43 2008 UTC (16 years, 10 months ago) by pam-mep
Branch: MAIN
Changes since 1.1: +4 -4 lines
File MIME type: text/plain
compile bug was fixed

1 // sample to plot ND data
2 // 04/26/2007
3 //
4 //
5 // C/C++ headers
6 //
7 #include "TrAng.h"
8 #include "QtoInc.h"
9
10 #include <fstream>
11 #include <iostream>
12 #include <stdio.h>
13 //
14 // ROOT headers
15 //
16 #include <TTree.h>
17 #include <TObject.h>
18 #include <TList.h>
19 #include <TArrayI.h>
20 #include <TSystem.h>
21 #include <TSystemDirectory.h>
22 #include <TString.h>
23 #include <TFile.h>
24 #include <TCanvas.h>
25 //#include <TMatrixD.h>
26 #include "TStyle.h"
27 #include <TH2F.h>
28
29 #include <PamLevel2.h>
30 #include <TStyle.h>
31
32 using namespace std;
33
34 int main(int argc, char* argv[]){
35
36 string outdir = "/home/pamelaprod/malakhov/QtoInc/Picture/";
37 Bool_t AnglHist = false;
38 Bool_t DiffHist = false;
39 Bool_t PamEff = false;
40 Bool_t DoTr = false;
41 Bool_t PamAngTime = false;
42 Bool_t PamExp = false;
43
44 if(argc<2){
45 cout<<"You have to insert at least a file to analisys \nUsing --help for more information\n";
46 exit(1);
47 }
48
49 if(!strcmp(argv[1],"--help")){
50 cout<<"\nUsage \n";
51 cout<<"\n QtoInc --WorkDir directory_with_level2_files --OutPuth directory_for_output files [Options] \n";
52 cout<<"\n --WorkDir full puth to the Level2 file \n";
53 cout<<" --OutPuth full puth for putputh files \n";
54 cout<<"\n options are:\n";
55 cout<<"--help print this help and exit \n";
56 cout<<"-DoTr Use DoTrack2 procedure for calculating direction of particle flight into Pamela \n";
57 cout<<"-PamEff Calculating Pamela's angular efficiency \n";
58 cout<<"-DiffHist Getting hystogramm for diference between direction getting using DoTrack2 and using axv & ayv values \n";
59 cout<<"-AngHist Getting hystogramm for various angles(Pitch Angle, Pamela's Main axis angles, etc) [default] \n";
60 cout<<"-PamAngTime Not Useful now \n";
61 cout<<"-PamExp Calculating exposition for each possible direction in Pamela's aperture \n";
62 cout<<"\nFor Example: \n";
63 cout<<"\n./QtoInc.exe --WorkDir /data01/_3/704_3/ --OutPuth /home/pamelaprod/malakhov/QtoInc/Picture5/ -DiffHist -DoTr \n\n";
64 exit(1);
65 }
66
67 if(!strcmp(argv[3],"--OutPuth")){
68 if (4 >= argc){
69 cout<<"--OutPath needs argument\n See --help\n";
70 }else outdir = argv[4];
71 }
72
73 for(Int_t i=4; i<argc; i++){
74 if(!strcmp(argv[i],"-DoTr")) DoTr = true;
75 if(!strcmp(argv[i],"-PamEff")) PamEff = true;
76 if(!strcmp(argv[i],"-DiffHist")){DiffHist = true; DoTr = true;}
77 if(!strcmp(argv[i],"-AngHist")) AnglHist = true;
78 if(!strcmp(argv[i],"-PamAngTime")) PamAngTime = true;
79 if(!strcmp(argv[i],"-PamExp")) PamExp = true;
80 }
81
82 if(!PamEff && !DiffHist && !AnglHist && !PamAngTime && !PamExp) AnglHist = true;
83
84 if(!strcmp(argv[1],"--WorkDir")){
85 if (2 >= argc){
86 cout<<"--WorkDir needs argument\n See --help\n";
87 exit(1);
88 }else Calculate(argv[2],outdir,AnglHist,DiffHist,PamEff,DoTr,PamAngTime,PamExp);
89 }
90
91 }
92
93 //Function to Convert Rigidity to Energy
94
95 Float_t ConvertR2T(Float_t R, Float_t M, Float_t Z)
96 {
97 //
98 // Convert rigidity (GV) in kinetic energy (GeV) per nucleon
99 // input = rigidity (GV), mass (Gev/c^2), A,Z.
100 //
101
102 Float_t EcinperN = (sqrt(pow((Z*R),2)+pow(M,2))-M);
103 return EcinperN;
104 }
105
106 //Function to convert Energy to Rigidity
107
108 Float_t ConvertT2R(Float_t T, Float_t M, Float_t A, Float_t Z)
109 {
110 //
111 // Convert kinetic energy (GeV) per nucleon in rigidity (GV)
112 // output = rigidity (GV),input kin energy mass (Gev/c^2), A,Z.
113 //
114
115 Float_t R= (1/Z)*(sqrt(pow((A*T+M),2)-pow(M,2)));
116 return R;
117 }
118
119 void Calculate(char* dirname, string outdir, Bool_t AnglHist, Bool_t DiffHist, Bool_t PamEff, Bool_t DoTr, Bool_t PamAngTime, Bool_t PamExp){
120
121 /**********************************************/
122 //First initialization, general for all purposes
123 /**********************************************/
124
125 //gStyle->SetOptStat(111111);
126 TSystemDirectory *workdir = new TSystemDirectory("workdir",dirname);
127 TList *flist=workdir->GetListOfFiles();
128 PamLevel2* pam_events = new PamLevel2();
129 PamelaOrientation* PO = new PamelaOrientation();
130 TTree *T = pam_events->GetPamTree(flist,"treename");
131 ULong_t nevents = T->GetEntries();
132
133 cout<<"Number of events: "<<nevents<<endl;
134 /********************************************************************************/
135 /*****NEED TO CHANGE FOR OTHER COMPUTERS****************************************/
136 pam_events->GetTrkLevel2()->LoadField("/data01/pamhome/installed/pamela_software/calib/trk-param/field_param-0/");
137 /********************************************************************************/
138
139 Int_t nz = 6; Float_t zin[6];
140 for (Int_t ip=0;ip<nz;ip++) {zin[ip] = pam_events->GetToFLevel2()->GetZTOF(pam_events->GetToFLevel2()->GetToFPlaneID(ip));cout<<zin[ip]<<endl;}
141 Trajectory *tr = new Trajectory(nz,zin);
142
143 PamTrack *track;
144
145 Int_t ntr;
146 Float_t Argv = 0;
147 Double_t PamAzim = 0;
148 Double_t PamZenit = 0;
149 Double_t MyAzim = 0;
150 Double_t MyZenit = 0;
151 Double_t Px;
152 Double_t Py;
153 Double_t Pz;
154
155 /*********************************************************************************/
156 // Angular exposure. How much time Pamela have any Azimutal and Zenital angle
157 /*********************************************************************************/
158
159 TH2F *hhigh;
160 TH2F *hlow;
161
162 TFile fhigh((TString)outdir+"PamAngEfficiencyHighEnergy.root");
163 TFile flow((TString)outdir+"PamAngEfficiencyLowEnergy.root");
164 if(PamExp){
165
166 if (fhigh.IsZombie()||flow.IsZombie()){
167 cout<<"Problem with Hystogrammfiles"<<endl;
168 exit(1);
169 }else{
170 hhigh = (TH2F*)fhigh.Get("PamAngEffhigh");
171 hlow = (TH2F*)flow.Get("PamAngEfflow");
172 }
173
174 }
175
176 /*********************************************************************************/
177 //Histogramms for Count and exposition of Angles (Pitch, Pamela's Main axis, etc )
178 /*********************************************************************************/
179
180 //if(AnglHist){
181
182 TH1F *PitchExpositionWithoutBrazil = new TH1F("PitchExpositionWithoutBrazil", "Pitch Exposition without Brazil with Track", 360, 0, 180);
183 TH1F *PitchExpositionEquator = new TH1F("PitchExpositionEquator", "Pitch Exposition in Equator with Track", 360, 0, 180);
184 TH1F *PitchExpositionBrazil = new TH1F("PitchExpositionBrazil", "Pitch Exposition Brazil with Track", 360, 0, 180);
185 TH1F *MainAxisPamelaExpositionWithoutBrazil = new TH1F("MainAxisPamelaPitchExpositionWithoutBrazil", "Main Axis of Pamela Exposition without Brazil with Track", 360, 0, 180);
186 TH1F *MainAxisPamelaExpositionEquator = new TH1F("MainAxisPamelaPitchExpositionEquator", "Main Axis of Pamela Exposition in Equator with Track", 360, 0, 180);
187 TH1F *MainAxisPamelaExpositionBrazil = new TH1F("MainAxisPamelaExpositionBrazil", "Main Axis of Pamela Exposition Brazil with Track", 360, 0, 180);
188 TH1F *PitchExpositionNoOrientationWithoutBrazil = new TH1F("PitchExpositionNoOrientationWithoutBrazil", "Pitch Exposition without orientation Information without Brazil with Track", 360, 0, 180);
189 TH1F *PitchExpositionNoOrientationEquator = new TH1F("PitchExpositionNoOrientationEquator", "Pitch Exposition without orientation Information in Equator with Track", 360, 0, 180);
190 TH1F *PitchExpositionNoOrientationBrazil = new TH1F("PitchExpositionNoOrientationBrazil", "Pitch Exposition without orientation Information in Brazil with Track", 360, 0, 180);
191 TH1F *DiferenceBetweenNoOrientationAndWithOrientationWithoutBrazil = new TH1F("DiferenceBetweenNoOrientationAndWithOrientationWithoutBrazil", "Diference between no orientation data and with orientation without Brazil with Track", 360, 0, 180);
192 TH1F *DiferenceBetweenNoOrientationAndWithOrientationEquator = new TH1F("DiferenceBetweenNoOrientationAndWithOrientationEquator", "Diference between no orientation data and with orientation in Equator with Track", 360, 0, 180);
193 TH1F *DiferenceBetweenNoOrientationAndWithOrientationBrazil = new TH1F("DiferenceBetweenNoOrientationAndWithOrientationBrazil", "Diference between no orientation data and with orientation in Brazil with Track", 360, 0, 180);
194 TH1F *DifferenceCountWithoutBrazil = new TH1F("DiferenceCountWithoutBrazil","Diference without Brazil",150,0.001,3);
195 TH1F *DifferenceCountEquator = new TH1F("DiferenceCountWithoutBrazil","Diference without Brazil",150,0.001,3);
196 TH1F *DifferenceCountInBrazil = new TH1F("DiferenceCountInBrazil","Diference in Brazil",150,0.001,3);
197
198 TH1F *PitchCountWithoutBrazil = new TH1F("PitchCountWithoutBrazil", "Pitch Count without Brazil with Track", 360, 0, 180);
199 TH1F *PitchCountEquator = new TH1F("PitchCountEquator", "Pitch Count in Equator with Track", 360, 0, 180);
200 TH1F *PitchCountBrazil = new TH1F("PitchCountBrazil", "Pitch Count Brazil with Track", 360, 0, 180);
201 TH1F *MainAxisPamelaCountWithoutBrazil = new TH1F("MainAxisPamelaPitchCountWithoutBrazil", "Main Axis of Pamela Count without Brazil with Track", 360, 0, 180);
202 TH1F *MainAxisPamelaCountEquator = new TH1F("MainAxisPamelaPitchCountEquator", "Main Axis of Pamela Count in Equator with Track", 360, 0, 180);
203 TH1F *MainAxisPamelaCountBrazil = new TH1F("MainAxisPamelaCountBrazil", "Main Axis of Pamela Count Brazil with Track", 360, 0, 180);
204 TH1F *PitchCountNoOrientationWithoutBrazil = new TH1F("PitchCountNoOrientationWithoutBrazil", "Pitch Count without orientation Information without Brazil with Track", 360, 0, 180);
205 TH1F *PitchCountNoOrientationEquator = new TH1F("PitchCountNoOrientationEquator", "Pitch Count without orientation Information in Equator with Track", 360, 0, 180);
206 TH1F *PitchCountNoOrientationBrazil = new TH1F("PitchCountNoOrientationBrazil", "Pitch Count without orientation Information in Brazil with Track", 360, 0, 180);
207 //TH1F *Diference2BetweenNoOrientationAndWithOrientationWithoutBrazil = new TH1F("Diference2BetweenNoOrientationAndWithOrientationWithoutBrazil", "Diference between no orientation data and with orientation without Brazil with Track", 360, 0, 180);
208 //TH1F *Diference2BetweenNoOrientationAndWithOrientationEquator = new TH1F("Diference2BetweenNoOrientationAndWithOrientationEquator", "Diference between no orientation data and with orientation in Equator with Track", 360, 0, 180);
209 //TH1F *Diference2BetweenNoOrientationAndWithOrientationBrazil = new TH1F("Diference2BetweenNoOrientationAndWithOrientationBrazil", "Diference between no orientation data and with orientation in Brazil with Track", 360, 0, 180);
210 //TH1F *Difference2CountWithoutBrazil = new TH1F("DiferenceCountWithoutBrazil","Diference without Brazil",150,0.001,3);
211 //TH1F *Difference2CountEquator = new TH1F("DiferenceCountWithoutBrazil","Diference without Brazil",150,0.001,3);
212 //TH1F *Difference2CountInBrazil = new TH1F("DiferenceCountInBrazil","Diference in Brazil",150,0.001,3);
213 //TH1F *EastPitchAllCount = new TH1F("EastPitchAllCount","East Count",)
214
215 TH1F *ZenitAngle = new TH1F("ZenitAngle","Zenit Angle",360,120,180);
216 //TH1F *ZenitAngleEquator = new TH1F("ZenitAngleWithoutEquator","Zenit Angle in Equator",360,120,180);
217 //TH1F *ZenitAngleBrazil = new TH1F("ZenitAngleBrazil","Zenit Angle in Brazil",360,120,180);
218
219 TH2F *PitchvsLatInBrazil = new TH2F("PitchvsLatInBrazil","Pitch Angle, deg; Latitude, deg",360,-40,-5,360,40,110);
220 TH2F *LieveTimevsLatInBrazil = new TH2F("LieveTimevsLatInBrazil","Live time, deg; Latitude deg",360,-40,-5,1000,0,80);
221
222
223 TCanvas *c1 = new TCanvas("c1","Exposition and count in Brazil",1200,3000);
224 TCanvas *c2 = new TCanvas("c2","Exposition and Count without Brazil",1200,3000);
225 TCanvas *c3 = new TCanvas("c3","Exposition and Count on Equator",1200,3000);
226 TCanvas *c4 = new TCanvas("c4","Pitch-Angle exposition and count",1200,3400);
227 TCanvas *c5 = new TCanvas("c5","PitchAndLieveTimevsLatitude",1200,800);
228 TCanvas *c6 = new TCanvas("c6","Diferense",1200,800);
229 //TCanvas *c6 = new TCanvas("c6","CountEquator",1200,3000);
230
231 //}
232
233 /***************************************************************************************/
234 //Histogramms for diferences in results between calculating using DoTrack2
235 //and using axv[0], ayv[0]
236 /**************************************************************************************/
237
238 //if(DiffHist){
239
240 TH1F *DifDoTr2ANdaxvAzim = new TH1F("DifDoTr2AndaxvAzim","Diference between Azimutal angles",360,-180,180);
241 TH1F *DifDoTr2ANdaxvZenit = new TH1F("DifDoTr2AndaxvZenit","Diference between Zenit angles",360,-180,180);
242
243 //}
244
245 /*************************************************************************************/
246 //Histogramm for Pamela's angular efficiency
247 /*************************************************************************************/
248
249 TH2F *PamAngEffhigh = new TH2F("PamAngEffhigh","Zenit Angle, deg; Azimutal Angle, deg",360,0,360,100,80,180);
250 TH2F *PamAngEfflow = new TH2F("PamAngEfflow","Zenit Angle, deg; Azimutal Angle, deg",360,0,360,100,80,180);
251 TCanvas *c7 = new TCanvas("c7","Pamela's angular efficiency", 1600,2000);
252
253 /*************************************************************************************/
254 //Hystogramm to count how much time Pamela have each PitchAngle
255 /*************************************************************************************/
256
257 TH1F *PitchTime = new TH1F("PitchTime","Time for Pitch",360,0,360);
258 TCanvas *c8 = new TCanvas("c8","PitchTime",1200,600);
259
260 TH1F *PitchExposure = new TH1F("PitchExposure","Time for Pitch",360,0,360);
261 TCanvas *c9 = new TCanvas("c9","PitchTime",1200,600);
262
263 /***************************************************************************************/
264 //Initialization histogramms for count of protons depends from Energy. Volodia.
265 /***************************************************************************************/
266 /*
267 TH1F* proton10log= new TH1F("Protons Flux","",80,-1.,3.);
268 proton10log->GetXaxis()->SetTitle("log10(Energy) , GeV");
269 TH1F* proton1log= new TH1F("Protons Flux","",80,-1.,3.);
270 TH1F* binw= new TH1F("w","",80,-1.,3.);
271 proton1log->GetXaxis()->SetTitle("log10(Energy) , GeV");
272 proton1log->SetLineColor(kRed);
273 TCanvas *plogCanvas = new TCanvas("proton flux","protonflux", 800, 800);
274 // this is bins wide to calculate Flux
275 Float_t x;
276 Float_t xmin, xmax;
277 Float_t binwide[80];
278 for (Int_t l=0 ; l<80; l++) {
279 binw->Fill(-1.+0.05*l,pow(10.,0.05*(Float_t)(l+1)-1.)- pow(10.,0.05*(Float_t)(l)-1.));
280 }
281
282 for (Int_t l=0 ; l<80; l++) {
283 binwide[l]=binw->GetBinContent(l+1);
284 }
285 */
286 /****************************************************************************/
287 //Geometrical Factor. Volodia
288 /****************************************************************************/
289 /*
290 TH1F* Geomfactor = new TH1F("G","G",1000,0.1,500.1);
291 TH1F* Geomfactorlog= new TH1F("Glog","Glog",80,-1.,3.);
292 TH1F* Geomfactorlogelectron= new TH1F("Gloge","Gloge",80,-1.,3.);
293 for (Int_t l=0 ; l <80 ;l++) {
294 x=pow(10.,(Float_t) 0.05*l-1.);
295 Geomfactorlogelectron->SetBinContent(l+1,pow(1/pow(66.7051+50.05404*log10(x),3.5083)+1./pow(21.6238,3.5083),(-1./3.5083)));
296 x=ConvertT2R(x,0.938,1., 1.);
297 Geomfactorlog->SetBinContent(l+1,pow(1/pow(66.7051+50.05404*log10(x),3.5083)+1./pow(21.6238,3.5083),(-1./3.5083)));
298 }//geomfactor for linear scale
299 for (Int_t l=0 ; l <1000 ;l++) {
300 x=(Float_t) 0.5*l+0.1;
301 Geomfactor->SetBinContent(l+1,pow(1/pow(66.7051+50.05404*log10(x),3.5083)+1./pow(21.6238,3.5083),(-1./3.5083)));
302 }
303 */
304 /****************************************************************************/
305 //General loop
306 /****************************************************************************/
307
308 for(ULong_t i=0; i<nevents; i++){
309
310 T->GetEntry(i);
311
312 if(pam_events->GetTrkLevel2()->GetNTracks()==1){
313
314 /*************************************************************************/
315 //Getting general parameters
316 /*************************************************************************/
317
318 track = pam_events->GetTrack(0);
319 Int_t M0DE = pam_events->GetOrbitalInfo()->mode; //0 is zero here
320 Float_t Bx = -pam_events->GetOrbitalInfo()->Bdown;
321 Float_t By = pam_events->GetOrbitalInfo()->Beast;
322 Float_t Bz = pam_events->GetOrbitalInfo()->Bnorth;
323 Float_t Babs = pam_events->GetOrbitalInfo()->Babs;
324 Float_t L = pam_events->GetOrbitalInfo()->L;
325 Float_t rigev = 1/track->GetTrkTrack()->GetDeflection();
326
327 /*************************************************************************/
328 //Track selection
329 /*************************************************************************/
330
331 ntr = 0;
332 if ((track->GetTrkTrack()->chi2<=0) || (track->GetTrkTrack()->chi2>=500)) ntr=-1;
333 for(Int_t ii=1;ii<=12;ii++){
334 if ((track->GetToFTrack()->beta[ii]<0) || (track->GetToFTrack()->beta[ii]>99)) ntr=-1;
335 }
336 if((track->GetTrkTrack()->GetNX()<=4)&&(track->GetTrkTrack()->GetNY()<4)) ntr=-1;
337 if((M0DE!=0)&&(M0DE!=1)&&(M0DE!=6)&&(M0DE!=2)&&(M0DE!=3)&&(M0DE!=8)&&(M0DE!=4)) ntr=-1;
338 if(sqrt(pow(Bx,2)+pow(By,2)+pow(Bz,2))<0.001) ntr=-1;
339 //if(rigev<0.600) ntr=-1;
340
341 if(ntr!=-1 || PamExp){
342
343 /*******************************************************************************/
344 //Transit reference system
345 /*******************************************************************************/
346
347 TMatrixD Fij = PO->ECItoGreenwich(PO->QuatoECI(pam_events->GetOrbitalInfo()->q0,pam_events->GetOrbitalInfo()->q1,pam_events->GetOrbitalInfo()->q2,pam_events->GetOrbitalInfo()->q3),pam_events->GetOrbitalInfo()->absTime);
348 TMatrixD Dij = PO->GreenwichtoGEO(pam_events->GetOrbitalInfo()->lat,pam_events->GetOrbitalInfo()->lon,Fij);
349 TMatrixD Iij = PO->ColPermutation(Dij);
350
351 /*****************************************************************************/
352 //Calculate Zenit and Azimutal angle and vector of particle flight in Pamela
353 //using axv[0] and ayv[0] variables
354 /*****************************************************************************/
355
356 if(!DoTr || DiffHist){
357
358 Double_t Aaxv = TMath::Abs(track->GetTrkTrack()->axv[0])*TMath::DegToRad();
359 Double_t Aayv = TMath::Abs(track->GetTrkTrack()->ayv[0])*TMath::DegToRad();
360 PamZenit = TMath::RadToDeg()*asin(sqrt(pow(sin(Aayv), 2) + pow(sin(Aaxv), 2)));
361
362 Double_t axv = -track->GetTrkTrack()->axv[0] * TMath::DegToRad();
363 Double_t ayv = -track->GetTrkTrack()->ayv[0] * TMath::DegToRad();
364 Double_t angle = atan(sin(TMath::Abs(ayv))/sin(TMath::Abs(axv))) * TMath::RadToDeg();
365
366 PamAzim = 360. - angle;
367 if(axv>=0 && ayv >=0) PamAzim = angle;
368 if(axv<0 && ayv >0) PamAzim = 180. - angle;
369 if(axv<0 && ayv <0) PamAzim = 180. + angle;
370
371 PamAzim = PamAzim * TMath::DegToRad();
372 PamZenit = (180 - PamZenit) * TMath::DegToRad();
373 Px = sin(axv);
374 Py = sin(ayv);
375 Pz = cos(PamZenit);
376
377
378 }
379
380 /*****************************************************************************/
381 //Calculate Zenit and Azimutal angle and vector of particle flight in Pamela
382 //using DoTrack2 procedure
383 /*****************************************************************************/
384
385 if(DoTr){
386
387 track->GetTrkTrack()->DoTrack2(tr);
388 Double_t E11x = tr->x[0];
389 Double_t E11y = tr->y[0];
390 Double_t E11z = zin[0];
391 Double_t E22x = tr->x[3];
392 Double_t E22y = tr->y[3];
393 Double_t E22z = zin[3];
394 Double_t norm = sqrt(pow(E22x-E11x,2)+pow(E22y-E11y,2)+pow(E22z-E11z,2));
395 MyAzim = TMath::RadToDeg()*atan(TMath::Abs(E22y-E11y)/TMath::Abs(E22x-E11x));
396 MyAzim = MyAzim;//-180;
397 MyZenit = TMath::RadToDeg()*acos((E22z-E11z)/norm);
398 if(E22x-E11x>=0 && E22y-E11y <0) MyAzim = 360. - MyAzim;
399 if(E22x-E11x>=0 && E22y-E11y >=0) MyAzim = MyAzim;
400 if(E22x-E11x<0 && E22y-E11y >0) MyAzim = 180. - MyAzim;
401 if(E22x-E11x<0 && E22y-E11y <0) MyAzim = 180. + MyAzim;
402 Px = (E22x-E11x)/norm;
403 Py = (E22y-E11y)/norm;
404 Pz = (E22z-E11z)/norm;
405
406 }
407
408 /***************************************************************************************/
409 //Fill histogramms for diferences in results between calculating using DoTrack2
410 //and using axv[0], ayv[0]
411 /**************************************************************************************/
412
413 if(DiffHist){
414
415 DifDoTr2ANdaxvZenit->Fill(MyZenit-(TMath::RadToDeg()*PamZenit));
416 DifDoTr2ANdaxvAzim->Fill(MyAzim-(TMath::RadToDeg()*PamAzim));
417
418 }
419
420 if(PamEff||AnglHist||PamExp){
421
422 /***********************************************************************************/
423 //Transit vector in Pamela reference system to GEO
424 /***********************************************************************************/
425
426 TMatrixD Eij = PO->PamelatoGEO(Iij,Px,Py,Pz);
427 Double_t A1 = Iij(0,2);
428 Double_t A2 = Iij(1,2);
429 Double_t A3 = Iij(2,2);
430
431 /*******************************************************************************/
432 //Calculating angles (Pitch, Pamela's main axis etc.)
433 /*******************************************************************************/
434
435 Double_t SB = PO->GetPitchAngle(Eij(0,0),Eij(1,0),Eij(2,0),Bx,By,Bz); // Pitch angle
436 Double_t SA = PO->GetPitchAngle(A1,A2,A3,Bx,By,Bz); // Angle between Pamela's main axiz and B
437 Double_t SC = PO->GetPitchAngle(1,0,0,Bx,By,Bz); // Angle between direction to xenit and B
438 Double_t ZC = PO->GetPitchAngle(Px,Py,Pz,0,0,1); // Zenit Angle of Particle flight
439
440 /******************************************************************************/
441 //Proton selection. Volodia.
442 /******************************************************************************/
443 /*
444 if(14.9/L/L > 0. && 14.9/L/L < 1. & Babs >0.24) {
445 Int_t detr = 0;
446 //if((rigev < -0.8 && betaev >0.8)||(rigev>-0.8 && rigev < 0.&& betaev > 0.8) ) //electron2->Fill(log10(fabs(rigev)));
447 if(detr < (15*exp(-1.6*(fabs(rigev)-0.5))+4) && rigev >0.5 || (detr < 30 && fabs(rigev) <0.5)) {
448 Float_t Ekin=ConvertR2T(rigev,0.938,1., 1.);
449 proton1log->Fill(log10(Ekin));
450 }
451 }
452 */
453 /************/
454 //Exposure
455 /************/
456
457 //for (Int_t itime=0; itime<16;itime++){
458 // if(14.9/L/L > itime && 14.9/L/L < (itime+1) & Babs >0.24) exposure[itime]=exposure[itime]+livetime/1000.;}
459
460 /***********************************************************************/
461 //Polar area. To calculate angular efficiencÐÐy of registration
462 /***********************************************************************/
463
464 if(PamExp){
465
466 Float_t AnglTime = 0.16*pam_events->GetTrigLevel2()->dltime[0]+0.01*pam_events->GetTrigLevel2()->dltime[1];
467 for(Int_t i=0;i<=360;i++){
468 for(Int_t j=0;j<=100;j++){
469 if(hhigh->GetBin(i,j)>0){
470 Double_t pamZenit=(j+80-0.5)*TMath::DegToRad();
471 Double_t pamAzim=(i*-0.5)*TMath::DegToRad();
472 Double_t _z = cos(pamZenit);
473 Double_t _x = sin(pamZenit)*cos(pamAzim);
474 Double_t _y = sin(pamZenit)*sin(pamAzim);
475 TMatrixD Uij = PO->PamelatoGEO(Iij,_x,_y,_z);
476 Double_t SP = PO->GetPitchAngle(Uij(0,0),Uij(1,0),Uij(2,0),Bx,By,Bz);
477 PitchExposure->Fill(SP,AnglTime);
478 }
479 }
480 }
481
482 }
483
484 if(PamEff){
485
486 if(L>6){
487 Float_t Mass = 0;
488 Int_t detr = 0;
489 Float_t Ekin = 0;
490 Float_t betaev = 0.25*(track->GetToFTrack()->beta[0]+track->GetToFTrack()->beta[1]+track->GetToFTrack()->beta[2]+track->GetToFTrack()->beta[3]);
491 if(14.9/L/L > 0. && 14.9/L/L < 1. & Babs >0.24) {
492 if((rigev < -0.8 && betaev >0.8)||(rigev>-0.8 && rigev < 0.&& betaev > 0.8) ) {
493 Ekin=ConvertR2T(rigev,0.511,-1.);
494 if (Ekin>1) PamAngEffhigh->Fill(TMath::RadToDeg()*PamAzim,TMath::RadToDeg()*PamZenit);
495 if (Ekin<1) PamAngEfflow->Fill(TMath::RadToDeg()*PamAzim,TMath::RadToDeg()*PamZenit);
496 }//electron2->Fill(log10(fabs(rigev)));
497
498 if(detr < (15*exp(-1.6*(fabs(rigev)-0.5))+4) && rigev >0.5 || (detr < 30 && fabs(rigev) <0.5)) {
499 Ekin=ConvertR2T(rigev,0.938,-1.);
500 if (Ekin>1) PamAngEffhigh->Fill(TMath::RadToDeg()*PamAzim,TMath::RadToDeg()*PamZenit);
501 if (Ekin<1) PamAngEfflow->Fill(TMath::RadToDeg()*PamAzim,TMath::RadToDeg()*PamZenit);
502 }
503 }
504 }
505
506 }
507
508 /***********************************************************************/
509 //Filling hystogram to count how much time Pamela have each Pitch-Angle
510 /***********************************************************************/
511
512 if(PamAngTime) {
513
514 Float_t AnglTime = 0.16*pam_events->GetTrigLevel2()->dltime[0]+0.01*pam_events->GetTrigLevel2()->dltime[1];
515 PitchTime->Fill(SA,AnglTime);
516
517 }
518
519 if(AnglHist){
520
521 /***********************************************************************/
522 //Filling angular histogramms for Brazil
523 /***********************************************************************/
524
525 if((Babs<0.19)&&(L<1.75)){
526 Argv = 0.16*pam_events->GetTrigLevel2()->dltime[0];
527 PitchExpositionBrazil->Fill(SB,Argv);
528 MainAxisPamelaExpositionBrazil->Fill(SA,Argv);
529 PitchExpositionNoOrientationBrazil->Fill(SC,Argv);
530 PitchCountBrazil->Fill(SB);
531 MainAxisPamelaCountBrazil->Fill(SA);
532 PitchCountNoOrientationBrazil->Fill(SC);
533 ZenitAngle->Fill(ZC);
534 PitchvsLatInBrazil->Fill(pam_events->GetOrbitalInfo()->lat,SA);
535 LieveTimevsLatInBrazil->Fill(pam_events->GetOrbitalInfo()->lat,Argv);
536 }
537
538 /***********************************************************************/
539 //Filling angulars histogramms for areas without Brazil
540 /***********************************************************************/
541
542 if(Babs>0.24){
543 Argv = 0.16*pam_events->GetTrigLevel2()->dltime[0];
544 PitchExpositionWithoutBrazil->Fill(SB,Argv);
545 MainAxisPamelaExpositionWithoutBrazil->Fill(SA,Argv);
546 PitchExpositionNoOrientationWithoutBrazil->Fill(SC,Argv);
547 PitchCountWithoutBrazil->Fill(SB);
548 MainAxisPamelaCountWithoutBrazil->Fill(SA);
549 PitchCountNoOrientationWithoutBrazil->Fill(SC);
550 ZenitAngle->Fill(ZC);
551
552 /***************************************************************/
553 //Filling angulars histogramm for equator
554 /***************************************************************/
555
556 if(L<1.2){
557 Argv = 0.16*pam_events->GetTrigLevel2()->dltime[0];
558 PitchExpositionEquator->Fill(SB,Argv);
559 MainAxisPamelaExpositionEquator->Fill(SA,Argv);
560 PitchExpositionNoOrientationEquator->Fill(SC,Argv);
561 PitchCountEquator->Fill(SB);
562 MainAxisPamelaCountEquator->Fill(SA);
563 PitchCountNoOrientationEquator->Fill(SC);
564 ZenitAngle->Fill(ZC);
565 }
566 }
567
568 } // if(AnglHist)
569
570 } // if(PamEff||AnglHist)
571
572 } // if ntr!=-1;
573
574 } // if GetNTrack==1;
575
576 } //general loop
577
578 Double_t BinContent;
579
580 /*********************************************************/
581 //Divide canvases for angular histogramms
582 /*********************************************************/
583
584 if(AnglHist){
585
586 c1->Divide(1,6);
587 c2->Divide(1,6);
588 c3->Divide(1,6);
589 c4->Divide(1,7);
590 c5->Divide(1,2);
591
592 }
593
594 /***************************************************************************************/
595 //Canvas for histogramms for diferences in results between calculating using DoTrack2
596 //and using axv[0], ayv[0]
597 /**************************************************************************************/
598
599 if(DiffHist){
600
601 c6->Divide(1,2);
602
603 }
604
605 /**************************************************************************************/
606 //Canvas for Pamela's efficiency hystogramm
607 /**************************************************************************************/
608
609 if(PamEff){
610
611 c7->Divide(1,2);
612
613 }
614
615 /**************************************************************************************/
616 //Draw Angular Histogramms
617 /**************************************************************************************/
618
619 if(AnglHist){
620
621 c1->cd(1);
622 MainAxisPamelaExpositionBrazil->Draw();
623 c1->cd(2);
624 MainAxisPamelaCountBrazil->Draw();
625 c1->cd(3);
626 PitchExpositionNoOrientationBrazil->Draw();
627 c1->cd(4);
628 PitchCountNoOrientationBrazil->Draw();
629 c1->cd(5);
630 DiferenceBetweenNoOrientationAndWithOrientationBrazil->Divide(PitchExpositionNoOrientationBrazil,MainAxisPamelaExpositionBrazil);
631 DiferenceBetweenNoOrientationAndWithOrientationBrazil->Draw();
632 c1->cd(6);
633 for(Int_t iu=0;iu<360;iu++){
634 BinContent = DiferenceBetweenNoOrientationAndWithOrientationBrazil->GetBinContent(iu);
635 DifferenceCountInBrazil->Fill(BinContent);
636 }
637 DifferenceCountInBrazil->Draw();
638 //DifferenceCountInBrazil->SaveAs((TString)outdir+"PIC001A_BrazilExpositionAndCount.root");
639 c1->SaveAs((TString)outdir+"PIC001A_BrazilExpositionAndCount.jpg");
640
641 c2->cd(1);
642 MainAxisPamelaExpositionWithoutBrazil->Draw();
643 c2->cd(2);
644 MainAxisPamelaCountWithoutBrazil->Draw();
645 c2->cd(3);
646 PitchExpositionNoOrientationWithoutBrazil->Draw();
647 c2->cd(4);
648 PitchCountNoOrientationWithoutBrazil->Draw();
649 c2->cd(5);
650 DiferenceBetweenNoOrientationAndWithOrientationWithoutBrazil->Divide(PitchExpositionNoOrientationWithoutBrazil,MainAxisPamelaExpositionWithoutBrazil);
651 DiferenceBetweenNoOrientationAndWithOrientationWithoutBrazil->Draw();
652 c2->cd(6);
653 for(Int_t iu=0;iu<360;iu++){
654 BinContent = DiferenceBetweenNoOrientationAndWithOrientationWithoutBrazil->GetBinContent(iu);
655 DifferenceCountWithoutBrazil->Fill(BinContent);
656 }
657 DifferenceCountWithoutBrazil->Draw();
658 c2->SaveAs((TString)outdir+"PIC003A_WithoutBrazilExpositionAndCount.jpg");
659
660 c3->cd(1);
661 MainAxisPamelaExpositionEquator->Draw();
662 c3->cd(2);
663 MainAxisPamelaCountEquator->Draw();
664 c3->cd(3);
665 PitchExpositionNoOrientationEquator->Draw();
666 c3->cd(4);
667 PitchCountNoOrientationEquator->Draw();
668 c3->cd(5);
669 DiferenceBetweenNoOrientationAndWithOrientationEquator->Divide(PitchExpositionNoOrientationEquator,MainAxisPamelaExpositionEquator);
670 DiferenceBetweenNoOrientationAndWithOrientationEquator->Draw();
671 c3->cd(6);
672 for(Int_t iu=0;iu<360;iu++){
673 BinContent = DiferenceBetweenNoOrientationAndWithOrientationEquator->GetBinContent(iu);
674 DifferenceCountEquator->Fill(BinContent);
675 }
676 DifferenceCountEquator->Draw();
677 c3->SaveAs((TString)outdir+"PIC005A_EquatorExpositionAndCount.jpg");
678
679 c4->cd(1);
680 PitchExpositionBrazil->Draw();
681 c4->cd(2);
682 PitchCountBrazil->Draw();
683 c4->cd(3);
684 PitchExpositionWithoutBrazil->Draw();
685 c4->cd(4);
686 PitchCountWithoutBrazil->Draw();
687 c4->cd(5);
688 PitchExpositionEquator->Draw();
689 c4->cd(6);
690 PitchCountEquator->Draw();
691 c4->cd(7);
692 ZenitAngle->Draw();
693 c4->SaveAs((TString)outdir+"PIC006A_PitchCountsAndExpositions.jpg");
694
695 c5->cd(1);
696 PitchvsLatInBrazil->Draw();
697 c5->cd(2);
698 LieveTimevsLatInBrazil->Draw();
699 c5->SaveAs((TString)outdir+"PIC006A_PitchvsLotitudeBrazil.jpg");
700
701 }
702
703 /***************************************************************************************/
704 //Draw hystogramms for diferences in results between calculating using DoTrack2
705 //and using axv[0], ayv[0]
706 /**************************************************************************************/
707
708 if(DiffHist){
709
710 c6->cd(1);
711 DifDoTr2ANdaxvAzim->Draw();
712 c6->cd(2);
713 DifDoTr2ANdaxvZenit->Draw();
714 c6->SaveAs((TString)outdir+"PIC001Diference.jpg");
715
716 }
717
718 /***********************************************************************/
719 //Draw hystogram to count how much time Pamela have each Pitch-Angle
720 /***********************************************************************/
721
722 if(PamAngTime) {
723
724 c8->cd();
725 PitchTime->Draw();
726 c8->SaveAs((TString)outdir+"PIC002PamAngTime.jpg");
727
728 }
729
730 if(PamExp){
731
732 c9->cd();
733 PitchExposure->Draw();
734 c9->SaveAs((TString)outdir+"PIC003PamAngTime.jpg");
735
736 }
737
738 /**************************************************************************************/
739 //Draw Hystogramm for Pamela's angular efficiency
740 /**************************************************************************************/
741 gStyle->SetPalette(1);
742
743 if(PamEff){
744 c7->cd(1);
745 PamAngEffhigh->Draw("colz");
746 TFile fh((TString)outdir+"PamAngEfficiencyHighEnergy.root","recreate");
747 PamAngEffhigh->Write();
748 fh.Close();
749 //PamAngEffhigh->SaveAs((TString)outdir+"PamAngEfficiencyHighEnergy.root");
750 c7->cd(2);
751 PamAngEfflow->Draw("colz");
752 TFile fl((TString)outdir+"PamAngEfficiencyLowEnergy.root","recreate");
753 PamAngEffhigh->Write();
754 fl.Close();
755 //PamAngEfflow->SaveAs((TString)outdir+"PamAngEfficiencyLowEnergy.root");
756 c7->SaveAs((TString)outdir+"PIC001PamAngEfficiencyHighEnergy.jpg");
757
758 }
759
760 /**************************************************************************************/
761 //Draw hystogramms for protons. Volodia
762 /**************************************************************************************/
763
764 /*
765 plogCanvas->cd();
766 //plogCanvas->SetLogx();
767 plogCanvas->SetLogy();
768 plogCanvas->SetGrid();
769 //BinLogX(proton1);
770 Float_t Energybin[80],Fluxbin[80],dE[80],dFlux[80];
771
772 for (Int_t i=0;i<80;i++){
773 dFlux[i]=proton1log->GetBinContent(i+1);
774 dFlux[i]=1./sqrt(dFlux[i]);
775 // bintime3eq[i]=time3eq->GetBinContent(i+1);
776 }
777
778 proton1log->Divide(proton1log,binw);
779 proton1log->Divide(proton1log,Geomfactorlog);
780 proton1log->Scale(0.001); //MeV ->GeV
781 proton1log->Scale(10000.); //cm2 -> m2
782 //proton1log->Scale(1./exposure[0]);
783
784 for (Int_t i=0;i<80;i++){
785 Fluxbin[i]=proton1log->GetBinContent(i+1);
786 dFlux[i]=Fluxbin[i]*dFlux[i];
787 Energybin[i]=pow(10.,(Float_t)i*0.05+0.025-1);
788 Energybin[i+1]=pow(10.,(Float_t)(i+1)*0.05+0.025-1.);
789 dE[i]=(Energybin[i+1]-Energybin[i])/2.;
790 // bintime3eq[i]=time3eq->GetBinContent(i+1);
791 //cout<<i<<" "<<bintime3[i]<<" "<<bintime3eq[i]<<endl;
792 //flux_out<<Energybin[i]<<" "<<Fluxbin[i]<<" "<<dE[i]<<" "<<dFlux[i]<<endl;
793 }
794
795 proton1log->Draw("");
796
797 */
798 }

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