hjet mass ana update + bug fix
[u/mrichter/AliRoot.git] / PWGJE / AliAnalysisTaskPartonDisc.cxx
CommitLineData
0c9acc4c 1/*************************************************************************
2* Copyright(c) 1998-2008, ALICE Experiment at CERN, All rights reserved. *
3* *
4* Author: The ALICE Off-line Project. *
5* Contributors are mentioned in the code where appropriate. *
6* *
7* Permission to use, copy, modify and distribute this software and its *
8* documentation strictly for non-commercial purposes is hereby granted *
9* without fee, provided that the above copyright notice appears in all *
10* copies and that both the copyright notice and this permission notice *
11* appear in the supporting documentation. The authors make no claims *
12* about the suitability of this software for any purpose. It is *
13* provided "as is" without express or implied warranty. *
14**************************************************************************/
15
16////////////////////////////////////////////////////////
17// //
18// Analysis task for parton discrimination studies //
19// //
20// Author: //
21// Hermes Leon Vargas (hleon@ikf.uni-frankfurt.de) //
22// //
23////////////////////////////////////////////////////////
24
25#include "TROOT.h"
26#include "TDirectory.h"
27#include "TKey.h"
28#include "TList.h"
29#include "TSystem.h"
30#include "TChain.h"
31#include "TTree.h"
32#include "TFile.h"
33#include "TString.h"
34#include "TH1F.h"
35#include "TH1I.h"
36#include "TH2F.h"
37#include "TH2I.h"
38#include "TH3F.h"
39#include "TProfile.h"
40#include "TCanvas.h"
41#include "AliAnalysisTask.h"
42#include "AliAnalysisManager.h"
43#include "AliAODHandler.h"
44#include "AliVEvent.h"
45#include "AliAODEvent.h"
46#include "AliAODInputHandler.h"
47#include "AliVParticle.h"
48#include "AliAODMCParticle.h"
49#include "AliGenEventHeader.h"
50#include "AliGenPythiaEventHeader.h"
51#include "AliGenDPMjetEventHeader.h"
52#include "AliAODMCHeader.h"
53#include "AliMCEventHandler.h"
54#include "AliMCEvent.h"
55#include <algorithm>
56#include "AliLog.h"
57#include "AliAODVertex.h"
58#include "AliAODHeader.h"
59#include "AliESDtrack.h"
60#include "AliAnalysisHelperJetTasks.h"
61#include "AliAnalysisTaskPartonDisc.h"
62#include "AliAODVZERO.h"
17f4943e 63#include "TRandom3.h"
64#include "TDatime.h"
0c9acc4c 65
66// Analysis task for parton discrimination
67
68ClassImp(AliAnalysisTaskPartonDisc)
69
8dcbcbbb 70Double_t *AliAnalysisTaskPartonDisc::fgContainer = 0x0;
0c9acc4c 71
72//________________________________________________________________________
73AliAnalysisTaskPartonDisc::AliAnalysisTaskPartonDisc()
17f4943e 74 : AliAnalysisTaskSE(), fAOD(0), fUseAODMC(kFALSE), fPhojetMC(kFALSE), fBranchMC("jetsMC"), fBranchRec("jetsREC"), fBranchSecRec(""), fSqrts(0), fNtX(0), fJetRadius(0.), fFlavorRadius(0.), fFilterBit(0xFF), fOutputList(0), fJetPt(0), fJetPtSec(0), fJetPtMC(0), fJetEta(0), fJetEtaSec(0), fJetPhi(0), fJetPhiSec(0), fJetEtaMC(0), fJetPhiMC(0), fPtAODMC(0), fPtAOD(0), fEtaAODMC(0), fPhiAODMC(0), fEtaAOD(0), fPhiAOD(0), fFlavor(0), fNJetsMC(0), fNJetsRD(0), fNJetsRDSeco(0), fJetsMultPtMC(0), fJetsMultPtRD(0), fNChTrRD(0), fProfNChTrRD(0), fFracQQ(0), fFracGQ(0), fFracGG(0), fFracOutGoingQQ(0), fFracOutGoingGQ(0), fFracOutGoingGG(0), fh1Xsec(0), fh1Trials(0), fMpdg(0), fProcessJetPt(0), fFlavorLead(0), fProcessLeadJetPt(0), fPDGMothLPart(0), fFlavProc(0), fAvgTrials(1), fUseAODJetInput(kFALSE), fMinTrackPtInNTX(0), fMaxTrackPtInNTX(0), fSCMRD(0), fMinpTVal(0), fZVertex(0), fh1Events(0), fUseOnlyMC(kFALSE), fCheckMCStatus(kTRUE), fEvtCount(0), fNAccJetsMC(0), fNAccJetsRD(0), fNAccJetsRDSeco(0), fEnablePrints(kFALSE), fRecJetPtInclusive(0), fMCJetPtInclusive(0), fRecJetPtLeading(0), fMCJetPtLeading(0), fSecRecJetPtInclusive(0), fSecRecJetPtLeading(0), fHasPerpCone(kTRUE), fEtaPerpCoord(0), fPhiPerpCoord(0), fPtPerpCoord(0), fJetEvent(kFALSE), fPerpCone(0), fNChTrMCPerp(0), fNChTrRecPerp(0), fSCMMCPerp(0), fSCMRecPerp(0), fIsHIevent(kFALSE), fCurrentJetMinPtNT90(0), fBckgSbsJet(0), fCurrentJetMinPtNT90Recalc(0), fNChTrCorrMCQuark(0), fNChTrCorrMCGluon(0), fNChTrCorrMCPerp(0), fIsPossibleToSubstBckg(kTRUE), fNChTrRecECorr(0), fNChTrRecPerpECorr(0), fRefMult(0), fCurrentJetCharge(0), fRefMultWOJet(0), fVZEROMult(0), fMultWOJetVZero(0), fVZero(0), fRefMultFullV0(0), fRefMultV0Corr(0), fFullV0V0Corr(0), fNTXV0MultPt(0), fNTXCBMultPt(0), fMinpTValUE(2.0), fRefMultFullV0UJ(0), fRefMultV0CorrUJ(0), fFullV0V0CorrUJ(0), fMultWOJetVZeroUJ(0), fRefMultWOJetUJ(0), fMaxpTValUE(2.0), fRefAODTrackCount(0), fRefAODTrackCountUJ(0), fTrackCountWOJet(0), fTrackCountWOJetUJ(0), fTrackCountWOJetUJMC(0), fFullV0V0CorrUJMC(0), fMinpTValMC(2.0), fIncExcR(0.0), fForceNotTR(kFALSE), fNotExtDiJEx(kFALSE), fMinTrackPtInNTXRecalc(0), fMaxTrackPtInNTXRecalc(0), fPtDistInJetConeRaw(0), fPtDistInPerpConeRaw(0), fPtInPerpCon(0), fMinTrackPtInNTXR(0), fMaxTrackPtInNTXR(0), fEventCent(0), fJetEtaAll(0), fJetEtaOnlyTPCcut(0), fNChTrRecECorrPPMult(0), fNChTrRecPerpECorrPPMult(0), fForceSkipSJ(kFALSE), fJetPtCentPbPbRaw(0), fJetPtCentPbPbCorr(0), fJetAcceptance(0.5), fIncreasingExcl(kFALSE), fTotTracksCone(0), fTotTracksInCone(0), fTTrackRandomRejection(0), fJTrackRandomRejection(0), fMinPtInGlobMult(0)
0c9acc4c 75{
0c9acc4c 76 // Constructor
77
78 for(Int_t a=0; a<16;a++)
79 {
80 fJetFlags[a]=kTRUE;
81 if(a<12)
82 {
83 fNChTr[a]=0;
84 fHistPtParton[a]=0;
85 fSCM[a]=0;
86 if(a<8)
87 {
88 fNChTrRDMult[a]=0;
89 fNAccJetsRDMult[a]=0;
90 fTotalJetCharge[a]=0;
91 fSCMRDMult[a]=0;
92 fNChTrRDMultMC[a]=0;
93 fSCMRDMultMC[a]=0;
94 fNChTrRDMultSE[a]=0;
95 fNAccJetsRDMultSE[a]=0;
96 fTotalJetChargeSE[a]=0;
97 fSCMRDMultSE[a]=0;
98 fNChTrRDMultOJ[a]=0;
99 fSCMRDMultOJ[a]=0;
100 fNChTrRDMultSEOJ[a]=0;
101 fSCMRDMultSEOJ[a]=0;
102 fNChTrRDMultOJMC[a]=0;
103 fSCMRDMultOJMC[a]=0;
104 fNChTrRDMultSEOJMC[a]=0;
105 fSCMRDMultSEOJMC[a]=0;
106 fNChTrRecPerpMultSEOJ[a]=0;
17f4943e 107 fJEtaMCMultOJ[a]=0;
108 fJEtaMCMultSEOJ[a]=0;
109 fJEtaRDMultOJ[a]=0;
110 fJEtaRDMultSEOJ[a]=0;
111 fJetPtMCMultOJ[a]=0;
112 fJetPtMCMultSEOJ[a]=0;
113 fJetPtRDMultOJ[a]=0;
114 fJetPtRDMultSEOJ[a]=0;
115 fEntriesQuark[a]=0;
116 fEntriesGluon[a]=0;
0c9acc4c 117 }
118 if(a<6)
119 {
120 fProcessPDG[a]=0;
121 fFragPion[a]=0;
122 fFragKaon[a]=0;
123 fFragProton[a]=0;
124 fFragChargedR4[a]=0;
125 fFragChargedR3[a]=0;
126 fFragChargedR2[a]=0;
127 fHistContainerR4[a]=0;
128 fHistContainerR3[a]=0;
129 fHistContainerR2[a]=0;
130 if(a<3)
131 {
132 fJetEtaJetPt[a]=0;
133 if(a<2)
134 {
135 fFragCandidates[a]=0;
136 fMinTrackPtInNTXh[a]=0;
137 fMaxTrackPtInNTXh[a]=0;
138 }
139 }
140 }
141 }
142 }
143}
144//________________________________________________________________________
145AliAnalysisTaskPartonDisc::AliAnalysisTaskPartonDisc(const char *name)
17f4943e 146 : AliAnalysisTaskSE(name), fAOD(0), fUseAODMC(kFALSE), fPhojetMC(kFALSE), fBranchMC("jetsMC"), fBranchRec("jetsREC"), fBranchSecRec(""), fSqrts(0), fNtX(0), fJetRadius(0.), fFlavorRadius(0.), fFilterBit(0xFF), fOutputList(0), fJetPt(0), fJetPtSec(0), fJetPtMC(0), fJetEta(0), fJetEtaSec(0), fJetPhi(0), fJetPhiSec(0), fJetEtaMC(0), fJetPhiMC(0), fPtAODMC(0), fPtAOD(0), fEtaAODMC(0), fPhiAODMC(0), fEtaAOD(0), fPhiAOD(0), fFlavor(0), fNJetsMC(0), fNJetsRD(0), fNJetsRDSeco(0), fJetsMultPtMC(0), fJetsMultPtRD(0), fNChTrRD(0), fProfNChTrRD(0), fFracQQ(0), fFracGQ(0), fFracGG(0), fFracOutGoingQQ(0), fFracOutGoingGQ(0), fFracOutGoingGG(0), fh1Xsec(0), fh1Trials(0), fMpdg(0), fProcessJetPt(0), fFlavorLead(0), fProcessLeadJetPt(0), fPDGMothLPart(0), fFlavProc(0), fAvgTrials(1), fUseAODJetInput(kFALSE), fMinTrackPtInNTX(0), fMaxTrackPtInNTX(0), fSCMRD(0), fMinpTVal(0), fZVertex(0), fh1Events(0), fUseOnlyMC(kFALSE), fCheckMCStatus(kTRUE), fEvtCount(0), fNAccJetsMC(0), fNAccJetsRD(0), fNAccJetsRDSeco(0), fEnablePrints(kFALSE), fRecJetPtInclusive(0), fMCJetPtInclusive(0), fRecJetPtLeading(0), fMCJetPtLeading(0), fSecRecJetPtInclusive(0), fSecRecJetPtLeading(0), fHasPerpCone(kTRUE), fEtaPerpCoord(0), fPhiPerpCoord(0), fPtPerpCoord(0), fJetEvent(kFALSE), fPerpCone(0), fNChTrMCPerp(0), fNChTrRecPerp(0), fSCMMCPerp(0), fSCMRecPerp(0), fIsHIevent(kFALSE), fCurrentJetMinPtNT90(0), fBckgSbsJet(0), fCurrentJetMinPtNT90Recalc(0), fNChTrCorrMCQuark(0), fNChTrCorrMCGluon(0), fNChTrCorrMCPerp(0), fIsPossibleToSubstBckg(kTRUE), fNChTrRecECorr(0), fNChTrRecPerpECorr(0), fRefMult(0), fCurrentJetCharge(0), fRefMultWOJet(0), fVZEROMult(0), fMultWOJetVZero(0), fVZero(0), fRefMultFullV0(0), fRefMultV0Corr(0), fFullV0V0Corr(0), fNTXV0MultPt(0), fNTXCBMultPt(0), fMinpTValUE(2.0), fRefMultFullV0UJ(0), fRefMultV0CorrUJ(0), fFullV0V0CorrUJ(0), fMultWOJetVZeroUJ(0), fRefMultWOJetUJ(0), fMaxpTValUE(2.0), fRefAODTrackCount(0), fRefAODTrackCountUJ(0), fTrackCountWOJet(0), fTrackCountWOJetUJ(0), fTrackCountWOJetUJMC(0), fFullV0V0CorrUJMC(0), fMinpTValMC(2.0), fIncExcR(0.0), fForceNotTR(kFALSE), fNotExtDiJEx(kFALSE), fMinTrackPtInNTXRecalc(0), fMaxTrackPtInNTXRecalc(0), fPtDistInJetConeRaw(0), fPtDistInPerpConeRaw(0), fPtInPerpCon(0), fMinTrackPtInNTXR(0), fMaxTrackPtInNTXR(0), fEventCent(0), fJetEtaAll(0), fJetEtaOnlyTPCcut(0), fNChTrRecECorrPPMult(0), fNChTrRecPerpECorrPPMult(0), fForceSkipSJ(kFALSE), fJetPtCentPbPbRaw(0), fJetPtCentPbPbCorr(0), fJetAcceptance(0.5), fIncreasingExcl(kFALSE), fTotTracksCone(0), fTotTracksInCone(0), fTTrackRandomRejection(0), fJTrackRandomRejection(0), fMinPtInGlobMult(0)
0c9acc4c 147{
148
149 // Constructor
150
151 for(Int_t a=0; a<16;a++)
152 {
153 fJetFlags[a]=kTRUE;
154 if(a<12)
155 {
156 fNChTr[a]=0;
157 fHistPtParton[a]=0;
158 fSCM[a]=0;
159 if(a<8)
160 {
161 fNChTrRDMult[a]=0;
162 fNAccJetsRDMult[a]=0;
163 fTotalJetCharge[a]=0;
164 fSCMRDMult[a]=0;
165 fNChTrRDMultMC[a]=0;
166 fSCMRDMultMC[a]=0;
167 fNChTrRDMultSE[a]=0;
168 fNAccJetsRDMultSE[a]=0;
169 fTotalJetChargeSE[a]=0;
170 fSCMRDMultSE[a]=0;
171 fNChTrRDMultOJ[a]=0;
172 fSCMRDMultOJ[a]=0;
173 fNChTrRDMultSEOJ[a]=0;
174 fSCMRDMultSEOJ[a]=0;
175 fNChTrRDMultOJMC[a]=0;
176 fSCMRDMultOJMC[a]=0;
177 fNChTrRDMultSEOJMC[a]=0;
178 fSCMRDMultSEOJMC[a]=0;
179 fNChTrRecPerpMultSEOJ[a]=0;
17f4943e 180 fJEtaMCMultOJ[a]=0;
181 fJEtaMCMultSEOJ[a]=0;
182 fJEtaRDMultOJ[a]=0;
183 fJEtaRDMultSEOJ[a]=0;
184 fJetPtMCMultOJ[a]=0;
185 fJetPtMCMultSEOJ[a]=0;
186 fJetPtRDMultOJ[a]=0;
187 fJetPtRDMultSEOJ[a]=0;
188 fEntriesQuark[a]=0;
189 fEntriesGluon[a]=0;
0c9acc4c 190 }
191 if(a<6)
192 {
193 fProcessPDG[a]=0;
194 fFragPion[a]=0;
195 fFragKaon[a]=0;
196 fFragProton[a]=0;
197 fFragChargedR4[a]=0;
198 fFragChargedR3[a]=0;
199 fFragChargedR2[a]=0;
200 fHistContainerR4[a]=0;
201 fHistContainerR3[a]=0;
202 fHistContainerR2[a]=0;
203 if(a<3)
204 {
205 fJetEtaJetPt[a]=0;
206 if(a<2)
207 {
208 fFragCandidates[a]=0;
209 fMinTrackPtInNTXh[a]=0;
210 fMaxTrackPtInNTXh[a]=0;
211 }
212 }
213 }
214 }
215 }
216
217 // Define input and output slots here
218 // Input slot #0 works with a TChain
219 DefineInput(0, TChain::Class());
220 // Output slot #0 id reserved by the base class for AOD
221 // Output slot #1 writes into a TH1 container
222 DefineOutput(1, TList::Class());
223}
224//________________________________________________________________________
225Bool_t AliAnalysisTaskPartonDisc::UserNotify()
226{
227 //
228 // read the cross sections
229 // and number of trials from pyxsec.root
230 // from AliAnalysisTaskJetSpectrum2
231 //
232
233 TTree *tree = AliAnalysisManager::GetAnalysisManager()->GetTree();
234 Float_t xsection = 0;
235 Float_t ftrials = 1;
236 Int_t nevents = 0;
237
238 fAvgTrials = 1;
239 if(tree)
240 {
241 TFile *curfile = tree->GetCurrentFile();
242 if (!curfile)
243 {
244 Error("Notify","No current file");
245 return kFALSE;
246 }
247 if(!fh1Xsec||!fh1Trials)
248 {
249 Printf("%s%d No Histogram fh1Xsec",(char*)__FILE__,__LINE__);
250 return kFALSE;
251 }
252 AliAnalysisHelperJetTasks::PythiaInfoFromFile(curfile->GetName(),xsection,ftrials);
253 fh1Xsec->Fill("<#sigma>",xsection);
254 // construct a poor man average trials (per event!?)
255 Float_t nEntries = (Float_t)tree->GetTree()->GetEntries();
256 if(ftrials>=nEntries && nEntries>0.)fAvgTrials = ftrials/nEntries;
257 // number of events read out to create the AOD
258 NumberOfReadEventsAOD(curfile->GetName(),nevents);
259 fh1Events->Fill("#sum{nevents}",nevents); // filled once per file
260 }
261 return kTRUE;
262
263}
264//________________________________________________________________________
265void AliAnalysisTaskPartonDisc::UserCreateOutputObjects()
266{
267 // Create histograms
268 // Called once
269
270 fOutputList = new TList();
271 fOutputList->SetOwner(kTRUE);
272
273 fJetPt = new TH1F("fJetPt", "p_{T} distribution of reco jets", 60, 0., 300.);
274 fJetPt->GetXaxis()->SetTitle("p_{T} (GeV/c)");
275 fJetPt->GetYaxis()->SetTitle("dN/dp_{T} (c/GeV)");
276 fJetPt->Sumw2();
277 fOutputList->Add(fJetPt);
278
279 fJetPtSec = new TH1F("fJetPtSec", "p_{T} distribution of reco jets, seconday rec branch", 60, 0., 300.);
280 fJetPtSec->GetXaxis()->SetTitle("p_{T} (GeV/c)");
281 fJetPtSec->GetYaxis()->SetTitle("dN/dp_{T} (c/GeV)");
282 fJetPtSec->Sumw2();
283 fOutputList->Add(fJetPtSec);
284
285 fJetPtMC = new TH1F("fJetPtMC", "p_{T} distribution of mc jets", 60, 0., 300.);
286 fJetPtMC->GetXaxis()->SetTitle("p_{T} (GeV/c)");
287 fJetPtMC->GetYaxis()->SetTitle("dN/dp_{T} (c/GeV)");
288 fJetPtMC->Sumw2();
289 fOutputList->Add(fJetPtMC);
290
291 fJetEta = new TH2F("fJetEta", "Eta distribution of reconstructed jets", 50, -1.5, 1.5, 50, -1.5, 1.5);
292 fJetEta->GetXaxis()->SetTitle("#eta");
293 fJetEta->GetYaxis()->SetTitle("#eta");
294 fJetEta->Sumw2();
295 fOutputList->Add(fJetEta);
296
297 fJetEtaSec = new TH2F("fJetEtaSec", "Eta distribution of reconstructed jets, secondary branch", 50, -1.5, 1.5, 50, -1.5, 1.5);
298 fJetEtaSec->GetXaxis()->SetTitle("#eta");
299 fJetEtaSec->GetYaxis()->SetTitle("#eta");
300 fJetEtaSec->Sumw2();
301 fOutputList->Add(fJetEtaSec);
302
303 fJetPhi = new TH2F("fJetPhi", "Phi distribution of reconstructed jets", 50, 0., TMath::TwoPi(), 50, 0., TMath::TwoPi());
304 fJetPhi->GetXaxis()->SetTitle("#phi");
305 fJetPhi->GetYaxis()->SetTitle("#phi");
306 fJetPhi->Sumw2();
307 fOutputList->Add(fJetPhi);
308
309 fJetPhiSec = new TH2F("fJetPhiSec", "Phi distribution of reconstructed jets, secondary branch", 50, 0., TMath::TwoPi(), 50, 0., TMath::TwoPi());
310 fJetPhiSec->GetXaxis()->SetTitle("#phi");
311 fJetPhiSec->GetYaxis()->SetTitle("#phi");
312 fJetPhiSec->Sumw2();
313 fOutputList->Add(fJetPhiSec);
314
315 fJetEtaMC = new TH2F("fJetEtaMC", "Eta distribution of MC jets", 50, -1.5, 1.5, 50, -1.5, 1.5);
316 fJetEtaMC->GetXaxis()->SetTitle("#eta");
317 fJetEtaMC->GetYaxis()->SetTitle("#eta");
318 fJetEtaMC->Sumw2();
319 fOutputList->Add(fJetEtaMC);
320
321 fJetPhiMC = new TH2F("fJetPhiMC", "Phi distribution of MC jets", 50, 0., TMath::TwoPi(), 50, 0., TMath::TwoPi());
322 fJetPhiMC->GetXaxis()->SetTitle("#phi");
323 fJetPhiMC->GetYaxis()->SetTitle("#phi");
324 fJetPhiMC->Sumw2();
325 fOutputList->Add(fJetPhiMC);
326
327 fPtAODMC = new TH2F("fPtAODMC", "p_{T} distribution of mc tracks", 200, 0., 100., 200, 0., 100.);
328 fPtAODMC->GetXaxis()->SetTitle("p_{T} (GeV/c)");
329 fPtAODMC->GetYaxis()->SetTitle("p_{T} (GeV/c)");
330 fPtAODMC->Sumw2();
331 fOutputList->Add(fPtAODMC);
332
333 fPtAOD = new TH2F("fPtAOD", "p_{T} distribution of aod tracks", 200, 0., 100., 200, 0., 100.);
334 fPtAOD->GetXaxis()->SetTitle("p_{T} (GeV/c)");
335 fPtAOD->GetYaxis()->SetTitle("p_{T} (GeV/c)");
336 fPtAOD->Sumw2();
337 fOutputList->Add(fPtAOD);
338
339 fEtaAODMC = new TH2F("fEtaAODMC", "Eta distribution of MC aod tracks", 50, -1.5, 1.5, 50, -1.5, 1.5);
340 fEtaAODMC->GetXaxis()->SetTitle("#eta");
341 fEtaAODMC->GetYaxis()->SetTitle("#eta");
342 fEtaAODMC->Sumw2();
343 fOutputList->Add(fEtaAODMC);
344
345 fPhiAODMC = new TH2F("fPhiAODMC", "Phi distribution of MC aod tracks", 50, 0., TMath::TwoPi(), 50, 0., TMath::TwoPi());
346 fPhiAODMC->GetXaxis()->SetTitle("#phi");
347 fPhiAODMC->GetYaxis()->SetTitle("#phi");
348 fPhiAODMC->Sumw2();
349 fOutputList->Add(fPhiAODMC);
350
351 fEtaAOD = new TH2F("fEtaAOD", "Eta distribution of aod tracks", 50, -1.5, 1.5, 50, -1.5, 1.5);
352 fEtaAOD->GetXaxis()->SetTitle("#eta");
353 fEtaAOD->GetYaxis()->SetTitle("#eta");
354 fEtaAOD->Sumw2();
355 fOutputList->Add(fEtaAOD);
356
357 fPhiAOD = new TH2F("fPhiAOD", "Phi distribution of aod tracks", 50, 0.,TMath::TwoPi(), 50, 0.,TMath::TwoPi());
358 fPhiAOD->GetXaxis()->SetTitle("#phi");
359 fPhiAOD->GetYaxis()->SetTitle("#phi");
360 fPhiAOD->Sumw2();
361 fOutputList->Add(fPhiAOD);
362
363 fFlavor = new TH2F("fFlavor", "Flavor distribution of jets", 27, -5.5, 21.5, 60, 0., 300.);
364 fFlavor->GetXaxis()->SetTitle("PDG code");
365 fFlavor->GetYaxis()->SetTitle("p_{T}^{JET}");
366 fFlavor->Sumw2();
367 fOutputList->Add(fFlavor);
368
369 fNJetsMC = new TH2F("fNJetsMC", "Number of simulated jets per event, as a function of p_T", 101, -0.5, 100.5, 101, -0.5, 100.5);
370 fNJetsMC->GetXaxis()->SetTitle("Number of jets");
371 fNJetsMC->GetYaxis()->SetTitle("Number of jets");
372 fNJetsMC->Sumw2();
373 fOutputList->Add(fNJetsMC);
374
375 fNJetsRD = new TH2F("fNJetsRD", "Number of jets per event in real data", 101, -0.5, 100.5, 101, -0.5, 100.5);
376 fNJetsRD->GetXaxis()->SetTitle("Number of jets");
377 fNJetsRD->GetYaxis()->SetTitle("Number of jets");
378 fNJetsRD->Sumw2();
379 fOutputList->Add(fNJetsRD);
380
381 fNJetsRDSeco = new TH2F("fNJetsRDSeco", "Number of jets per event in real data, secondary branch", 101, -0.5, 100.5, 101, -0.5, 100.5);
382 fNJetsRDSeco->GetXaxis()->SetTitle("Number of jets");
383 fNJetsRDSeco->GetYaxis()->SetTitle("Number of jets");
384 fNJetsRDSeco->Sumw2();
385 fOutputList->Add(fNJetsRDSeco);
386
387 fJetsMultPtMC = new TH2F("fJetsMultPtMC", "Jet multiplicity associated to jet pT, as a function of p_T MC", 60, 0., 300., 7, -0.5, 6.5);
388 fJetsMultPtMC->GetXaxis()->SetTitle("p_{T}^{JET}");
389 fJetsMultPtMC->GetYaxis()->SetTitle("Number of jets");
390 fJetsMultPtMC->Sumw2();
391 fOutputList->Add(fJetsMultPtMC);
392
393 fJetsMultPtRD = new TH2F("fJetsMultPtRD", "Jet multiplicity associated to jet pT, as a function of p_T Reco Data",60, 0., 300., 7, -0.5, 6.5);
394 fJetsMultPtRD->GetXaxis()->SetTitle("p_{T}^{JET}");
395 fJetsMultPtRD->GetYaxis()->SetTitle("Number of jets");
396 fJetsMultPtRD->Sumw2();
397 fOutputList->Add(fJetsMultPtRD);
398
399 fNChTrRD = new TH2F("fNChTrRD","Number of tracks to recover transverse energy, jet_{p_{T}}",101,-0.5,100.5, 60, 0., 300.);
400 fNChTrRD->GetXaxis()->SetTitle("NTracks");
401 fNChTrRD->GetYaxis()->SetTitle("p_{T}^{JET}");
402 fNChTrRD->Sumw2();
403 fOutputList->Add(fNChTrRD);
404
405 fProfNChTrRD = new TProfile("fProfNChTrRD","Number of tracks to recover transverse energy, jet_{p_{T}}", 50, 0, 250);
406 fProfNChTrRD->GetXaxis()->SetTitle("p_{T}^{JET}");
407 fProfNChTrRD->GetYaxis()->SetTitle("NTracks");
408 fProfNChTrRD->Sumw2();
409 fOutputList->Add(fProfNChTrRD);
410
411 fFracQQ = new TH1F("fFracQQ","QQ",1000,0.,0.5);
412 fFracQQ->GetXaxis()->SetTitle("x_{T}");
413 fFracQQ->GetYaxis()->SetTitle("Entries");
414 fFracQQ->Sumw2();
415 fOutputList->Add(fFracQQ);
416
417 fFracGQ = new TH1F("fFracGQ","GQ",1000,0.,0.5);
418 fFracGQ->GetXaxis()->SetTitle("x_{T}");
419 fFracGQ->GetYaxis()->SetTitle("Entries");
420 fFracGQ->Sumw2();
421 fOutputList->Add(fFracGQ);
422
423 fFracGG = new TH1F("fFracGG","GG",1000,0.,0.5);
424 fFracGG->GetXaxis()->SetTitle("x_{T}");
425 fFracGG->GetYaxis()->SetTitle("Entries");
426 fFracGG->Sumw2();
427 fOutputList->Add(fFracGG);
428
429 fFracOutGoingQQ = new TH1F("fFracOutGoingQQ","QQ",1000,0.,0.5);
430 fFracOutGoingQQ->GetXaxis()->SetTitle("x_{T}");
431 fFracOutGoingQQ->GetYaxis()->SetTitle("Entries");
432 fFracOutGoingQQ->Sumw2();
433 fOutputList->Add(fFracOutGoingQQ);
434
435 fFracOutGoingGQ = new TH1F("fFracOutGoingGQ","GQ",1000,0.,0.5);
436 fFracOutGoingGQ->GetXaxis()->SetTitle("x_{T}");
437 fFracOutGoingGQ->GetYaxis()->SetTitle("Entries");
438 fFracOutGoingGQ->Sumw2();
439 fOutputList->Add(fFracOutGoingGQ);
440
441 fFracOutGoingGG = new TH1F("fFracOutGoingGG","GG",1000,0.,0.5);
442 fFracOutGoingGG->GetXaxis()->SetTitle("x_{T}");
443 fFracOutGoingGG->GetYaxis()->SetTitle("Entries");
444 fFracOutGoingGG->Sumw2();
445 fOutputList->Add(fFracOutGoingGG);
446
447 fh1Xsec = new TProfile("h1Xsec","xsec from pyxsec.root",1,0,1);
448 fh1Xsec->SetXTitle("<#sigma>");
449 fh1Xsec->Sumw2();
450 fOutputList->Add(fh1Xsec);
451
452 fh1Trials = new TH1F("h1Trials","trials from pyxsec.root",1,0,1);
453 fh1Trials->SetXTitle("#sum{ntrials}");
454 fh1Trials->Sumw2();
455 fOutputList->Add(fh1Trials);
456
457 fProcessJetPt = new TH2F("fProcessJetPt","Pythia process number, jet_{p_{T}}",70, 0.5, 70.5, 60, 0., 300.);
458 fProcessJetPt->GetXaxis()->SetTitle("Pythia process");
459 fProcessJetPt->GetYaxis()->SetTitle("p_{T}^{JET}");
460 fProcessJetPt->Sumw2();
461 fOutputList->Add(fProcessJetPt);
462
463 fFlavorLead = new TH2F("fFlavorLead", "Flavor distribution of leading jets", 27, -5.5, 21.5, 60, 0., 300.);
464 fFlavorLead->GetXaxis()->SetTitle("PDG code");
465 fFlavorLead->GetYaxis()->SetTitle("p_{T}^{JET}");
466 fFlavorLead->Sumw2();
467 fOutputList->Add(fFlavorLead);
468
469 fProcessLeadJetPt = new TH2F("fProcessLeadJetPt","Pythia process number for leading, jet_{p_{T}}",70, 0.5, 70.5, 60, 0., 300.);
470 fProcessLeadJetPt->GetXaxis()->SetTitle("Pythia process");
471 fProcessLeadJetPt->GetYaxis()->SetTitle("p_{T}^{JET}");
472 fProcessLeadJetPt->Sumw2();
473 fOutputList->Add(fProcessLeadJetPt);
474
475 fPDGMothLPart = new TH3F("fPDGMothLPart","Mother of leading parton, leading parton, jet p_{T}", 27, -5.5, 21.5, 27, -5.5, 21.5, 60, 0., 300.);
476 fPDGMothLPart->GetXaxis()->SetTitle("Mother of leading parton");
477 fPDGMothLPart->GetYaxis()->SetTitle("Leading parton");
478 fPDGMothLPart->GetZaxis()->SetTitle("p_{T}^{JET}");
479 fPDGMothLPart->Sumw2();
480 fOutputList->Add(fPDGMothLPart);
481
482 fFlavProc = new TH2F("fFlavProc","Flavor, Flavor status code", 27, -5.5, 21.5, 101, -0.5, 100.5);
483 fFlavProc->GetXaxis()->SetTitle("Jet flavor");
484 fFlavProc->GetYaxis()->SetTitle("Parton status code");
485 fFlavProc->Sumw2();
486 fOutputList->Add(fFlavProc);
487
488 fSCMRD = new TH2F("fSCMRD","Second Central Moment, jet_{p_{T}}",200,0.,0.2, 60, 0., 300.);
489 fSCMRD->GetXaxis()->SetTitle("<#delta R_{c}^{2}>");
490 fSCMRD->GetYaxis()->SetTitle("p_{T}^{JET}");
491 fSCMRD->Sumw2();
492 fOutputList->Add(fSCMRD);
493
494 fZVertex = new TH2F("fZVertex","Z vertex position, Z vertex position}",40,-20.,20., 40, -20., 20.);
495 fZVertex->GetXaxis()->SetTitle("Vertex z");
496 fZVertex->GetYaxis()->SetTitle("Vertex z");
497 fZVertex->Sumw2();
498 fOutputList->Add(fZVertex);
499
500 fh1Events = new TH1F("fh1Events","nevents from PWG4_JetTasksOutput.root",1,0,1);
501 fh1Events->SetXTitle("#sum{nevents}");
502 fh1Events->Sumw2();
503 fOutputList->Add(fh1Events);
504
505 fNAccJetsMC = new TH2F("fNAccJetsMC", "Number accepted simulated jets per event", 101, -0.5, 100.5, 101, -0.5, 100.5);
506 fNAccJetsMC->GetXaxis()->SetTitle("Number of jets");
507 fNAccJetsMC->GetYaxis()->SetTitle("Number of jets");
508 fNAccJetsMC->Sumw2();
509 fOutputList->Add(fNAccJetsMC);
510
511 fNAccJetsRD = new TH2F("fNAccJetsRD", "Number of accepted jets per event in real data", 101, -0.5, 100.5, 101, -0.5, 100.5);
512 fNAccJetsRD->GetXaxis()->SetTitle("Number of jets");
513 fNAccJetsRD->GetYaxis()->SetTitle("Number of jets");
514 fNAccJetsRD->Sumw2();
515 fOutputList->Add(fNAccJetsRD);
516
517 fNAccJetsRDSeco = new TH2F("fNAccJetsRDSeco", "Number of accepted jets per event in real data, secondary branch", 101, -0.5, 100.5, 101, -0.5, 100.5);
518 fNAccJetsRDSeco->GetXaxis()->SetTitle("Number of jets");
519 fNAccJetsRDSeco->GetYaxis()->SetTitle("Number of jets");
520 fNAccJetsRDSeco->Sumw2();
521 fOutputList->Add(fNAccJetsRDSeco);
522
523 fRecJetPtInclusive = new TH1F("fRecJetPtInclusive", "p_{T} distribution of inclusive reco jets", 60, 0., 300.);
524 fRecJetPtInclusive->GetXaxis()->SetTitle("p_{T} (GeV/c)");
525 fRecJetPtInclusive->GetYaxis()->SetTitle("d#sigma (mb)");
526 fRecJetPtInclusive->Sumw2();
527 fOutputList->Add(fRecJetPtInclusive);
528
529 fMCJetPtInclusive = new TH1F("fMCJetPtInclusive", "p_{T} distribution of inclusive MC jets", 60, 0., 300.);
530 fMCJetPtInclusive->GetXaxis()->SetTitle("p_{T} (GeV/c)");
531 fMCJetPtInclusive->GetYaxis()->SetTitle("d#sigma (mb)");
532 fMCJetPtInclusive->Sumw2();
533 fOutputList->Add(fMCJetPtInclusive);
534
535 fRecJetPtLeading = new TH1F("fRecJetPtLeading", "p_{T} distribution of leading reco jets", 60, 0., 300.);
536 fRecJetPtLeading->GetXaxis()->SetTitle("p_{T} (GeV/c)");
537 fRecJetPtLeading->GetYaxis()->SetTitle("d#sigma (mb)");
538 fRecJetPtLeading->Sumw2();
539 fOutputList->Add(fRecJetPtLeading);
540
541 fMCJetPtLeading = new TH1F("fMCJetPtLeading", "p_{T} distribution of leading MC jets", 60, 0., 300.);
542 fMCJetPtLeading->GetXaxis()->SetTitle("p_{T} (GeV/c)");
543 fMCJetPtLeading->GetYaxis()->SetTitle("d#sigma (mb)");
544 fMCJetPtLeading->Sumw2();
545 fOutputList->Add(fMCJetPtLeading);
546
547 fSecRecJetPtInclusive = new TH1F("fSecRecJetPtInclusive", "p_{T} distribution of inclusive reco jets (2nd branch)", 60, 0., 300.);
548 fSecRecJetPtInclusive->GetXaxis()->SetTitle("p_{T} (GeV/c)");
549 fSecRecJetPtInclusive->GetYaxis()->SetTitle("d#sigma (mb)");
550 fSecRecJetPtInclusive->Sumw2();
551 fOutputList->Add(fSecRecJetPtInclusive);
552
553 fSecRecJetPtLeading = new TH1F("fSecRecJetPtLeading", "p_{T} distribution of leading reco jets (2nd branch)", 60, 0., 300.);
554 fSecRecJetPtLeading->GetXaxis()->SetTitle("p_{T} (GeV/c)");
555 fSecRecJetPtLeading->GetYaxis()->SetTitle("d#sigma (mb)");
556 fSecRecJetPtLeading->Sumw2();
557 fOutputList->Add(fSecRecJetPtLeading);
558
559 fNChTrMCPerp = new TH2F("fNChTrMCPerp","Number of tracks to recover transverse energy of perp. cone, jet_{p_{T} MC}",101,-0.5,100.5, 60, 0., 300.);
560 fNChTrMCPerp->GetXaxis()->SetTitle("NTracks Perp");
561 fNChTrMCPerp->GetYaxis()->SetTitle("p_{T}^{MC JET}");
562 fNChTrMCPerp->Sumw2();
563 fOutputList->Add(fNChTrMCPerp);
564
565 fNChTrRecPerp = new TH2F("fNChTrRecPerp","Number of tracks to recover transverse energy of perp. cone, jet_{p_{T} Rec}",101,-0.5,100.5, 60, 0., 300.);
566 fNChTrRecPerp->GetXaxis()->SetTitle("NTracks Perp");
567 fNChTrRecPerp->GetYaxis()->SetTitle("p_{T}^{RECO JET}");
568 fNChTrRecPerp->Sumw2();
569 fOutputList->Add(fNChTrRecPerp);
570
571 fSCMMCPerp = new TH2F("fSCMMCPerp","Second Central Moment of perp. cone, jet_{p_{T} MC}",200,0.,0.2, 60, 0., 300.);
572 fSCMMCPerp->GetXaxis()->SetTitle("<#delta R_{c}^{2}> Perp");
573 fSCMMCPerp->GetYaxis()->SetTitle("p_{T}^{JET}");
574 fSCMMCPerp->Sumw2();
575 fOutputList->Add(fSCMMCPerp);
576
577 fSCMRecPerp = new TH2F("fSCMRecPerp","Second Central Moment of perp. cone, jet_{p_{T} Reco}",200,0.,0.2, 60, 0., 300.);
578 fSCMRecPerp->GetXaxis()->SetTitle("<#delta R_{c}^{2}> Perp");
579 fSCMRecPerp->GetYaxis()->SetTitle("p_{T}^{JET}");
580 fSCMRecPerp->Sumw2();
581 fOutputList->Add(fSCMRecPerp);
582
583 fNChTrCorrMCQuark = new TH2F("fNChTrCorrMCQuark","Number of tracks to recover corrected transverse energy, MC quarks",101,-0.5,100.5, 60, 0., 300.);
584 fNChTrCorrMCQuark->GetXaxis()->SetTitle("NTracks");
585 fNChTrCorrMCQuark->GetYaxis()->SetTitle("p_{T}^{MC Corr. JET}");
586 fNChTrCorrMCQuark->Sumw2();
587 fOutputList->Add(fNChTrCorrMCQuark);
588
589 fNChTrCorrMCGluon = new TH2F("fNChTrCorrMCGluon","Number of tracks to recover corrected transverse energy, MC gluons",101,-0.5,100.5, 60, 0., 300.);
590 fNChTrCorrMCGluon->GetXaxis()->SetTitle("NTracks");
591 fNChTrCorrMCGluon->GetYaxis()->SetTitle("p_{T}^{MC Corr. JET}");
592 fNChTrCorrMCGluon->Sumw2();
593 fOutputList->Add(fNChTrCorrMCGluon);
594
595 fNChTrCorrMCPerp = new TH2F("fNChTrCorrMCPerp","Number of tracks to recover perp. cone. after corrected jet pT",101,-0.5,100.5, 60, 0., 300.);
596 fNChTrCorrMCPerp->GetXaxis()->SetTitle("NTracks");
597 fNChTrCorrMCPerp->GetYaxis()->SetTitle("p_{T}^{MC Corr. JET}");
598 fNChTrCorrMCPerp->Sumw2();
599 fOutputList->Add(fNChTrCorrMCPerp);
600
601 // 9 selection bins: (nuevo)
602 // 1st. Proton collisions fill 1 Bin1 [0.5,1.5)
603 // 2nd. PbPb collisions, Bin 0-10 fill 2 Bin2 [1.5,2.5)
604 // 3rd. PbPb collisions, Bin 10-20 fill 3 Bin3 [2.5,3.5)
605 // 4rd. PbPb collisions, Bin 20-30 fill 4 Bin4 [3.5,4.5)
606 // 5th. PbPb collisions, Bin 30-40 fill 5 Bin5 [4.5,5.5)
607 // 6th. PbPb collisions, Bin 40-50 fill 6 Bin6 [5.5,6.5)
608 // 7th. PbPb collisions, Bin 50-60 fill 7 Bin7 [6.5,7.5)
609 // 8th. PbPb collisions, Bin 60-70 fill 8 Bin8 [7.5,8.5)
610 // 9th. PbPb collisions, Bin 70-80 fill 9 Bin9 [8.5,9.5)
611 // 10th. PbPb collisions, Bin 80-100.1 fill 10 Bin10 [9.5,10.5)
612
613 fNChTrRecECorr = new TH3F("fNChTrRecECorr","NTX in ener. corr. jet , corr. jet pT, centrality",101,-0.5,100.5, 60, 0., 300.,10,0.5,10.5);
614 fNChTrRecECorr->GetXaxis()->SetTitle("NTracks");
615 fNChTrRecECorr->GetYaxis()->SetTitle("p_{T}^{JET}");
616 fNChTrRecECorr->GetZaxis()->SetTitle("Selection Bin");
617 fNChTrRecECorr->Sumw2();
618 fOutputList->Add(fNChTrRecECorr);
619
620 fNChTrRecPerpECorr = new TH3F("fNChTrRecPerpECorr","Tracks above min in perp.cone , corr. jet pT, centrality",101,-0.5,100.5, 60, 0., 300.,10,0.5,10.5);
621 fNChTrRecPerpECorr->GetXaxis()->SetTitle("NTracks");
622 fNChTrRecPerpECorr->GetYaxis()->SetTitle("p_{T}^{JET}");
623 fNChTrRecPerpECorr->GetZaxis()->SetTitle("Selection Bin");
624 fNChTrRecPerpECorr->Sumw2();
625 fOutputList->Add(fNChTrRecPerpECorr);
626
627 fRefMult = new TH1F("fRefMult", "Reference multiplicity in the AOD", 301, -0.5, 300.5);
628 fRefMult->GetXaxis()->SetTitle("Reference multiplicity");
629 fRefMult->Sumw2();
630 fOutputList->Add(fRefMult);
631
632 fRefMultWOJet = new TH2F("fRefMultWOJet", "Reference multiplicity in the AOD, multiplicity without jets", 301, -0.5, 300.5, 301, -0.5, 300.5);
633 fRefMultWOJet->GetXaxis()->SetTitle("Reference multiplicity");
634 fRefMultWOJet->GetYaxis()->SetTitle("Multiplicity without jets");
635 fRefMultWOJet->Sumw2();
636 fOutputList->Add(fRefMultWOJet);
637
638 fVZEROMult = new TH2F("fVZEROMult", "Multiplicity V0A and V0C", 501, -0.5, 500.5, 501, -0.5, 500.5);
639 fVZEROMult->GetXaxis()->SetTitle("Multiplicity V0A");
640 fVZEROMult->GetYaxis()->SetTitle("Multiplicity V0C");
641 fVZEROMult->Sumw2();
642 fOutputList->Add(fVZEROMult);
643
644 fMultWOJetVZero = new TH2F("fMultWOJetVZero", "Multiplicity without jets and VZERO mult.",301, -0.5, 300.5, 1001, -0.5, 1000.5);
645 fMultWOJetVZero->GetXaxis()->SetTitle("Multiplicity without jets TPC");
646 fMultWOJetVZero->GetYaxis()->SetTitle("Multiplicity full V0");
647 fMultWOJetVZero->Sumw2();
648 fOutputList->Add(fMultWOJetVZero);
649
650 fRefMultFullV0 = new TH2F("fRefMultFullV0", "Reference multiplicity in the AOD, multiplicity from full V0",301, -0.5, 300.5, 1001, -0.5, 1000.5);
651 fRefMultFullV0->GetXaxis()->SetTitle("Reference multiplicity in AOD");
652 fRefMultFullV0->GetYaxis()->SetTitle("Multiplicity full V0");
653 fRefMultFullV0->Sumw2();
654 fOutputList->Add(fRefMultFullV0);
655
656 fRefMultV0Corr = new TH2F("fRefMultV0Corr", "Reference multiplicity in the AOD, multiplicity from corrected V0",301, -0.5, 300.5, 1001, -0.5, 1000.5);
657 fRefMultV0Corr->GetXaxis()->SetTitle("Reference multiplicity in AOD");
658 fRefMultV0Corr->GetYaxis()->SetTitle("Multiplicity V0 no jets");
659 fRefMultV0Corr->Sumw2();
660 fOutputList->Add(fRefMultV0Corr);
661
662 fFullV0V0Corr = new TH2F("fFullV0V0Corr", "Multiplicity from full V0, multiplicity from corrected V0",1001, -0.5, 1000.5, 1001, -0.5, 1000.5);
663 fFullV0V0Corr->GetXaxis()->SetTitle("Multiplicity from full V0");
664 fFullV0V0Corr->GetYaxis()->SetTitle("Multiplicity V0 no jets");
665 fFullV0V0Corr->Sumw2();
666 fOutputList->Add(fFullV0V0Corr);
667
668 fNTXV0MultPt = new TH3F("fNTXV0MultPt", "NTX, Multiplicity from corrected V0, jet pT",101,-0.5,100.5, 1001, -0.5, 1000.5, 60, 0., 300.);
669 fNTXV0MultPt->GetXaxis()->SetTitle("NTracks");
670 fNTXV0MultPt->GetYaxis()->SetTitle("Multiplicity V0 no jets");
671 fNTXV0MultPt->GetZaxis()->SetTitle("p_{T}^{JET}");
672 fNTXV0MultPt->Sumw2();
673 fOutputList->Add(fNTXV0MultPt);
674
675 fNTXCBMultPt = new TH3F("fNTXCBMultPt", "NTX, Multiplicity from corrected Central Barrel, jet pT",101,-0.5,100.5, 301, -0.5, 300.5, 60, 0., 300.);
676 fNTXCBMultPt->GetXaxis()->SetTitle("NTracks");
677 fNTXCBMultPt->GetYaxis()->SetTitle("Multiplicity corrected Central Barrel");
678 fNTXCBMultPt->GetZaxis()->SetTitle("p_{T}^{JET}");
679 fNTXCBMultPt->Sumw2();
680 fOutputList->Add(fNTXCBMultPt);
681
682 fRefMultFullV0UJ = new TH2F("fRefMultFullV0UJ", "Reference multiplicity in the AOD, multiplicity from full V0, 1 jet event",301, -0.5, 300.5, 1001, -0.5, 1000.5);
683 fRefMultFullV0UJ->GetXaxis()->SetTitle("Reference multiplicity in AOD");
684 fRefMultFullV0UJ->GetYaxis()->SetTitle("Multiplicity full V0");
685 fRefMultFullV0UJ->Sumw2();
686 fOutputList->Add(fRefMultFullV0UJ);
687
688 fRefMultV0CorrUJ = new TH2F("fRefMultV0CorrUJ", "Reference multiplicity in the AOD, multiplicity from corrected V0, 1 jet event",301, -0.5, 300.5, 1001, -0.5, 1000.5);
689 fRefMultV0CorrUJ->GetXaxis()->SetTitle("Reference multiplicity in AOD");
690 fRefMultV0CorrUJ->GetYaxis()->SetTitle("Multiplicity V0 no jets");
691 fRefMultV0CorrUJ->Sumw2();
692 fOutputList->Add(fRefMultV0CorrUJ);
693
694 fFullV0V0CorrUJ = new TH2F("fFullV0V0CorrUJ", "Multiplicity from full V0, multiplicity from corrected V0, 1 jet event",1001, -0.5, 1000.5, 1001, -0.5, 1000.5);
695 fFullV0V0CorrUJ->GetXaxis()->SetTitle("Multiplicity from full V0");
696 fFullV0V0CorrUJ->GetYaxis()->SetTitle("Multiplicity V0 no jets");
697 fFullV0V0CorrUJ->Sumw2();
698 fOutputList->Add(fFullV0V0CorrUJ);
699
700 fMultWOJetVZeroUJ = new TH2F("fMultWOJetVZeroUJ", "Multiplicity without jets and VZERO mult., 1 jet event",301, -0.5, 300.5, 1001, -0.5, 1000.5);
701 fMultWOJetVZeroUJ->GetXaxis()->SetTitle("Multiplicity without jets TPC");
702 fMultWOJetVZeroUJ->GetYaxis()->SetTitle("Multiplicity full V0");
703 fMultWOJetVZeroUJ->Sumw2();
704 fOutputList->Add(fMultWOJetVZeroUJ);
705
706 fRefMultWOJetUJ = new TH2F("fRefMultWOJetUJ", "Reference multiplicity in the AOD, multiplicity without jets, 1 jet event", 301, -0.5, 300.5, 301, -0.5, 300.5);
707 fRefMultWOJetUJ->GetXaxis()->SetTitle("Reference multiplicity");
708 fRefMultWOJetUJ->GetYaxis()->SetTitle("Multiplicity without jets");
709 fRefMultWOJetUJ->Sumw2();
710 fOutputList->Add(fRefMultWOJetUJ);
711
712 fRefAODTrackCount = new TH2F("fRefAODTrackCount", "Reference multiplicity in the AOD, my own referece mult.", 301, -0.5, 300.5, 301, -0.5, 300.5);
713 fRefAODTrackCount->GetXaxis()->SetTitle("AOD Reference multiplicity");
714 fRefAODTrackCount->GetYaxis()->SetTitle("My Reference multiplicity");
715 fRefAODTrackCount->Sumw2();
716 fOutputList->Add(fRefAODTrackCount);
717
718 fRefAODTrackCountUJ = new TH2F("fRefAODTrackCountUJ", "Reference multiplicity in the AOD, my own referece mult., 1 jet event", 301, -0.5, 300.5, 301, -0.5, 300.5);
719 fRefAODTrackCountUJ->GetXaxis()->SetTitle("AOD Reference multiplicity");
720 fRefAODTrackCountUJ->GetYaxis()->SetTitle("My Reference multiplicity");
721 fRefAODTrackCountUJ->Sumw2();
722 fOutputList->Add(fRefAODTrackCountUJ);
723
724 fTrackCountWOJet = new TH2F("fTrackCountWOJet", "My own total referece mult., soft mult", 151, -0.5, 150.5, 151, -0.5, 150.5);
725 fTrackCountWOJet->GetXaxis()->SetTitle("Total TPC multiplicity");
726 fTrackCountWOJet->GetYaxis()->SetTitle("Soft TPC multiplicity");
727 fTrackCountWOJet->Sumw2();
728 fOutputList->Add(fTrackCountWOJet);
729
730 fTrackCountWOJetUJ = new TH2F("fTrackCountWOJetUJ", "My own total referece mult., soft mult, 1 jet", 151, -0.5, 150.5, 151, -0.5, 150.5);
731 fTrackCountWOJetUJ->GetXaxis()->SetTitle("Total TPC multiplicity");
732 fTrackCountWOJetUJ->GetYaxis()->SetTitle("Soft TPC multiplicity");
733 fTrackCountWOJetUJ->Sumw2();
734 fOutputList->Add(fTrackCountWOJetUJ);
735
736 fTrackCountWOJetUJMC = new TH2F("fTrackCountWOJetUJMC", "My own total referece mult., soft mult, 1 jet, MC!", 151, -0.5, 150.5, 151, -0.5, 150.5);
737 fTrackCountWOJetUJMC->GetXaxis()->SetTitle("Total TPC (eta) multiplicity");
738 fTrackCountWOJetUJMC->GetYaxis()->SetTitle("Soft TPC (eta) multiplicity");
739 fTrackCountWOJetUJMC->Sumw2();
740 fOutputList->Add(fTrackCountWOJetUJMC);
741
742 fFullV0V0CorrUJMC = new TH2F("fFullV0V0CorrUJMC", "Multiplicity from full V0, multiplicity from corrected V0, 1 jet event, MC!",1001, -0.5, 1000.5, 1001, -0.5, 1000.5);
743 fFullV0V0CorrUJMC->GetXaxis()->SetTitle("Multiplicity from full V0 (acceptance)");
744 fFullV0V0CorrUJMC->GetYaxis()->SetTitle("Multiplicity V0(acceptance) no jets");
745 fFullV0V0CorrUJMC->Sumw2();
746 fOutputList->Add(fFullV0V0CorrUJMC);
747
8dcbcbbb 748 fMinTrackPtInNTXRecalc = new TH3F("fMinTrackPtInNTXRecalc", "Minimum track pT for the jets after pT correction, raw jet pT", 200, 0., 100., 60, 0., 300.,10,0.5,10.5);
0c9acc4c 749 fMinTrackPtInNTXRecalc->GetXaxis()->SetTitle("p_{T}^{TRACK} (GeV/c)");
750 fMinTrackPtInNTXRecalc->GetYaxis()->SetTitle("p_{T}^{JET} (GeV/c)");
8dcbcbbb 751 fMinTrackPtInNTXRecalc->GetZaxis()->SetTitle("Selection Bin"); // 9 selections bins as fNChTrRecECorr
0c9acc4c 752 fMinTrackPtInNTXRecalc->Sumw2();
753 fOutputList->Add(fMinTrackPtInNTXRecalc);
754
755 fMaxTrackPtInNTXRecalc = new TH2F("fMaxTrackPtInNTXRecalc", "Maximum track pT for the jets after pT correction, raw jet pT", 200, 0., 100., 60, 0., 300.);
756 fMaxTrackPtInNTXRecalc->GetXaxis()->SetTitle("p_{T}^{TRACK} (GeV/c)");
757 fMaxTrackPtInNTXRecalc->GetYaxis()->SetTitle("p_{T}^{JET} (GeV/c)");
758 fMaxTrackPtInNTXRecalc->Sumw2();
759 fOutputList->Add(fMaxTrackPtInNTXRecalc);
760
761 fPtDistInJetConeRaw = new TH3F("fPtDistInJetConeRaw","pT of tracks in cone, raw jet pT bin, centrality", 200, 0., 100., 8, 0.5, 8.5, 10, 0.5, 10.5);
762 fPtDistInJetConeRaw->GetXaxis()->SetTitle("p_{T}^{TRACK} (GeV/c)");
763 fPtDistInJetConeRaw->GetYaxis()->SetTitle("p_{T}^{JET} Bin");
764 fPtDistInJetConeRaw->GetZaxis()->SetTitle("Centrality Bin");
765 fPtDistInJetConeRaw->Sumw2();
766 fOutputList->Add(fPtDistInJetConeRaw);
767
768 fPtDistInPerpConeRaw = new TH3F("fPtDistInPerpConeRaw","pT of tracks in cone, raw jet pT bin, centrality", 200, 0., 100., 8, 0.5, 8.5, 10, 0.5, 10.5);
769 fPtDistInPerpConeRaw->GetXaxis()->SetTitle("p_{T}^{TRACK} (GeV/c)");
770 fPtDistInPerpConeRaw->GetYaxis()->SetTitle("p_{T}^{JET} Bin");
771 fPtDistInPerpConeRaw->GetZaxis()->SetTitle("Centrality Bin");
772 fPtDistInPerpConeRaw->Sumw2();
773 fOutputList->Add(fPtDistInPerpConeRaw);
774
775 fPtInPerpCon = new TH3F("fPtInPerpCon","Summed pT of perpendicular cone, raw jet pT bin, centrality", 200, 0., 100., 8, 0.5, 8.5, 10, 0.5, 10.5);
776 fPtInPerpCon->GetXaxis()->SetTitle("p_{T}^{PERP.CONE} (GeV/c)");
777 fPtInPerpCon->GetYaxis()->SetTitle("p_{T}^{JET} Bin");
778 fPtInPerpCon->GetZaxis()->SetTitle("Centrality Bin");
779 fPtInPerpCon->Sumw2();
780 fOutputList->Add(fPtInPerpCon);
781
782 fJetEtaAll = new TH1F("fJetEtaAll", "Eta distribution of reconstructed jets, no cuts", 50, -1.5, 1.5);
783 fJetEtaAll->GetXaxis()->SetTitle("#eta");
784 fJetEtaAll->GetYaxis()->SetTitle("entries");
785 fJetEtaAll->Sumw2();
786 fOutputList->Add(fJetEtaAll);
787
788 fJetEtaOnlyTPCcut = new TH1F("fJetEtaOnlyTPCcut", "Eta distribution of reconstructed jets, only tpc acceptance cut", 50, -1.5, 1.5);
789 fJetEtaOnlyTPCcut->GetXaxis()->SetTitle("#eta");
790 fJetEtaOnlyTPCcut->GetYaxis()->SetTitle("entries");
791 fJetEtaOnlyTPCcut->Sumw2();
792 fOutputList->Add(fJetEtaOnlyTPCcut);
793
794 // 9 multiplicity bins
795 // 1st. <5 TPC tracks fill 1 Bin1 [0.5,1.5)
796 // 2nd. >= 5 <10 TPC tracks fill 2 Bin2 [1.5,2.5)
797 // 3rd. >= 10 <15 TPC tracks fill 3 Bin3 [2.5,3.5)
798 // 4rd. >= 15 <20 TPC tracks fill 4 Bin4 [3.5,4.5)
799 // 5th. >= 20 <30 TPC tracks fill 5 Bin5 [4.5,5.5)
800 // 6th. >= 30 <40 TPC tracks fill 6 Bin6 [5.5,6.5)
801 // 7th. >= 40 <50 TPC tracks fill 7 Bin7 [6.5,7.5)
802 // 8th. >50 TPC tracks fill 8 Bin8 [7.5,8.5)
803
804 fNChTrRecECorrPPMult = new TH3F("fNChTrRecECorrPPMult","NTX in ener. corr. jet , corr. jet pT, pp mult.",101,-0.5,100.5, 60, 0., 300.,8,0.5,8.5);
805 fNChTrRecECorrPPMult->GetXaxis()->SetTitle("NTracks_Corrected");
806 fNChTrRecECorrPPMult->GetYaxis()->SetTitle("p_{T}^{JET}");
807 fNChTrRecECorrPPMult->GetZaxis()->SetTitle("Multiplicity Bin");
808 fNChTrRecECorrPPMult->Sumw2();
809 fOutputList->Add(fNChTrRecECorrPPMult);
810
811 fNChTrRecPerpECorrPPMult = new TH3F("fNChTrRecPerpECorrPPMult","Tracks above min in perp.cone , corr. jet pT, centrality",101,-0.5,100.5, 60, 0., 300.,8,0.5,8.5);
812 fNChTrRecPerpECorrPPMult->GetXaxis()->SetTitle("NTracks_Corrected");
813 fNChTrRecPerpECorrPPMult->GetYaxis()->SetTitle("p_{T}^{JET}");
814 fNChTrRecPerpECorrPPMult->GetZaxis()->SetTitle("Multiplicity Bin");
815 fNChTrRecPerpECorrPPMult->Sumw2();
816 fOutputList->Add(fNChTrRecPerpECorrPPMult);
817
8dcbcbbb 818 fJetPtCentPbPbRaw = new TH2F("fJetPtCentPbPbRaw", "raw p_{T} distribution of reco jets", 60, 0., 300.,10,0.5,10.5);
819 fJetPtCentPbPbRaw->GetXaxis()->SetTitle("p_{T} (GeV/c)");
820 fJetPtCentPbPbRaw->GetYaxis()->SetTitle("Selection Bin");
821 fJetPtCentPbPbRaw->Sumw2();
822 fOutputList->Add(fJetPtCentPbPbRaw);
823
824 fJetPtCentPbPbCorr = new TH2F("fJetPtCentPbPbCorr", "Corrected p_{T} distribution of reco jets", 60, 0., 300.,10,0.5,10.5);
825 fJetPtCentPbPbCorr->GetXaxis()->SetTitle("p_{T} (GeV/c)");
826 fJetPtCentPbPbCorr->GetYaxis()->SetTitle("Selection Bin");
827 fJetPtCentPbPbCorr->Sumw2();
828 fOutputList->Add(fJetPtCentPbPbCorr);
829
17f4943e 830 fTotTracksCone = new TH3F("fTotTracksCone","Total number of tracks in the cone, raw jet pT bin, centrality", 200, 0.5, 200.5, 8, 0.5, 8.5, 10, 0.5, 10.5);
831 fTotTracksCone->GetXaxis()->SetTitle("NTracks");
832 fTotTracksCone->GetYaxis()->SetTitle("p_{T}^{JET} Bin");
833 fTotTracksCone->GetZaxis()->SetTitle("Centrality Bin");
834 fTotTracksCone->Sumw2();
835 fOutputList->Add(fTotTracksCone);
836
0c9acc4c 837 for(Int_t ipt=0;ipt<12;ipt++)
838 {
839 fNChTr[ipt] = new TH2F(Form("fNChTr[%i]",ipt),"Number of tracks to recover transverse energy, jet_{p_{T}}",101,-0.5,100.5, 60, 0., 300.);
840 fNChTr[ipt]->GetXaxis()->SetTitle("NTracks");
841 fNChTr[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
842 fNChTr[ipt]->Sumw2();
843 fOutputList->Add(fNChTr[ipt]);
844
845 fHistPtParton[ipt] = new TH1F(Form("fHistPtParton[%i]",ipt),"pT distribution of jets",50,0.,250.);
846 fHistPtParton[ipt]->GetXaxis()->SetTitle("p_{T}^{JET}");
847 fHistPtParton[ipt]->GetYaxis()->SetTitle("Entries");
848 fHistPtParton[ipt]->Sumw2();
849 fOutputList->Add(fHistPtParton[ipt]);
850
851 fSCM[ipt] = new TH2F(Form("fSCM[%i]",ipt),"Second Central Moment, jet_{p_{T}}",200,0.,0.2, 60, 0., 300.);
852 fSCM[ipt]->GetXaxis()->SetTitle("<#delta R_{c}^{2}>");
853 fSCM[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
854 fSCM[ipt]->Sumw2();
855 fOutputList->Add(fSCM[ipt]);
856
857 if(ipt<8)
858 {
859 fNChTrRDMult[ipt] = new TH2F(Form("fNChTrRDMult[%i]",ipt),"Number of tracks to recover transverse energy, jet_{p_{T}}",101,-0.5,100.5, 60, 0., 300.);
860 fNChTrRDMult[ipt]->GetXaxis()->SetTitle("NTracks");
861 fNChTrRDMult[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
862 fNChTrRDMult[ipt]->Sumw2();
863 fOutputList->Add(fNChTrRDMult[ipt]);
864
865 fNAccJetsRDMult[ipt] = new TH1F(Form("fNAccJetsRDMult[%i]",ipt),"Number of accepted jets per event in real data", 101, -0.5, 100.5);
866 fNAccJetsRDMult[ipt]->GetXaxis()->SetTitle("Number of jets");
867 fNAccJetsRDMult[ipt]->Sumw2();
868 fOutputList->Add(fNAccJetsRDMult[ipt]);
869
870 fTotalJetCharge[ipt] = new TH1F(Form("fTotalJetCharge[%i]",ipt),"Charge in the jet", 41, -20.5, 20.5);
871 fTotalJetCharge[ipt]->GetXaxis()->SetTitle("Charge in jet");
872 fTotalJetCharge[ipt]->Sumw2();
873 fOutputList->Add(fTotalJetCharge[ipt]);
874
875 fSCMRDMult[ipt] = new TH2F(Form("fSCMRDMult[%i]",ipt),"Second Central Moment, jet_{p_{T}}",200,0.,0.2, 60, 0., 300.);
876 fSCMRDMult[ipt]->GetXaxis()->SetTitle("<#delta R_{c}^{2}>");
877 fSCMRDMult[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
878 fSCMRDMult[ipt]->Sumw2();
879 fOutputList->Add(fSCMRDMult[ipt]);
880
881 fNChTrRDMultMC[ipt] = new TH2F(Form("fNChTrRDMultMC[%i]",ipt),"Number of tracks to recover transverse energy, jet_{p_{T}}",101,-0.5,100.5, 60, 0., 300.);
882 fNChTrRDMultMC[ipt]->GetXaxis()->SetTitle("NTracks");
883 fNChTrRDMultMC[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
884 fNChTrRDMultMC[ipt]->Sumw2();
885 fOutputList->Add(fNChTrRDMultMC[ipt]);
886
887 fSCMRDMultMC[ipt] = new TH2F(Form("fSCMRDMultMC[%i]",ipt),"Second Central Moment, jet_{p_{T}}",200,0.,0.2, 60, 0., 300.);
888 fSCMRDMultMC[ipt]->GetXaxis()->SetTitle("<#delta R_{c}^{2}>");
889 fSCMRDMultMC[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
890 fSCMRDMultMC[ipt]->Sumw2();
891 fOutputList->Add(fSCMRDMultMC[ipt]);
892
893 //Second multiplicity estimator, removing jets and an area
894 fNChTrRDMultSE[ipt] = new TH2F(Form("fNChTrRDMultSE[%i]",ipt),"Number of tracks to recover transverse energy, jet_{p_{T}}",101,-0.5,100.5, 60, 0., 300.);
895 fNChTrRDMultSE[ipt]->GetXaxis()->SetTitle("NTracks");
896 fNChTrRDMultSE[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
897 fNChTrRDMultSE[ipt]->Sumw2();
898 fOutputList->Add(fNChTrRDMultSE[ipt]);
899
900 fNAccJetsRDMultSE[ipt] = new TH1F(Form("fNAccJetsRDMultSE[%i]",ipt),"Number of accepted jets per event in real data", 101, -0.5, 100.5);
901 fNAccJetsRDMultSE[ipt]->GetXaxis()->SetTitle("Number of jets");
902 fNAccJetsRDMultSE[ipt]->Sumw2();
903 fOutputList->Add(fNAccJetsRDMultSE[ipt]);
904
905 fTotalJetChargeSE[ipt] = new TH1F(Form("fTotalJetChargeSE[%i]",ipt),"Charge in the jet", 41, -20.5, 20.5);
906 fTotalJetChargeSE[ipt]->GetXaxis()->SetTitle("Charge in jet");
907 fTotalJetChargeSE[ipt]->Sumw2();
908 fOutputList->Add(fTotalJetChargeSE[ipt]);
909
910 fSCMRDMultSE[ipt] = new TH2F(Form("fSCMRDMultSE[%i]",ipt),"Second Central Moment, jet_{p_{T}}",200,0.,0.2, 60, 0., 300.);
911 fSCMRDMultSE[ipt]->GetXaxis()->SetTitle("<#delta R_{c}^{2}>");
912 fSCMRDMultSE[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
913 fSCMRDMultSE[ipt]->Sumw2();
914 fOutputList->Add(fSCMRDMultSE[ipt]);
915
916 fNChTrRDMultOJ[ipt] = new TH2F(Form("fNChTrRDMultOJ[%i]",ipt),"Number of tracks to recover transverse energy, jet_{p_{T}, 1 jet}",101,-0.5,100.5, 60, 0., 300.);
917 fNChTrRDMultOJ[ipt]->GetXaxis()->SetTitle("NTracks");
918 fNChTrRDMultOJ[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
919 fNChTrRDMultOJ[ipt]->Sumw2();
920 fOutputList->Add(fNChTrRDMultOJ[ipt]);
921
922 fSCMRDMultOJ[ipt] = new TH2F(Form("fSCMRDMultOJ[%i]",ipt),"Second Central Moment, jet_{p_{T}}, 1 jet",200,0.,0.2, 60, 0., 300.);
923 fSCMRDMultOJ[ipt]->GetXaxis()->SetTitle("<#delta R_{c}^{2}>");
924 fSCMRDMultOJ[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
925 fSCMRDMultOJ[ipt]->Sumw2();
926 fOutputList->Add(fSCMRDMultOJ[ipt]);
927
928 fNChTrRDMultSEOJ[ipt] = new TH2F(Form("fNChTrRDMultSEOJ[%i]",ipt),"Number of tracks to recover transverse energy, jet_{p_{T}}, 1 jet",101,-0.5,100.5, 60, 0., 300.);
929 fNChTrRDMultSEOJ[ipt]->GetXaxis()->SetTitle("NTracks");
930 fNChTrRDMultSEOJ[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
931 fNChTrRDMultSEOJ[ipt]->Sumw2();
932 fOutputList->Add(fNChTrRDMultSEOJ[ipt]);
933
934 fSCMRDMultSEOJ[ipt] = new TH2F(Form("fSCMRDMultSEOJ[%i]",ipt),"Second Central Moment, jet_{p_{T}}, 1 jet",200,0.,0.2, 60, 0., 300.);
935 fSCMRDMultSEOJ[ipt]->GetXaxis()->SetTitle("<#delta R_{c}^{2}>");
936 fSCMRDMultSEOJ[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
937 fSCMRDMultSEOJ[ipt]->Sumw2();
938 fOutputList->Add(fSCMRDMultSEOJ[ipt]);
939
940 fNChTrRDMultOJMC[ipt] = new TH2F(Form("fNChTrRDMultOJMC[%i]",ipt),"Number of tracks to recover transverse energy, jet_{p_{T}, 1 jet, MC}",101,-0.5,100.5, 60, 0., 300.);
941 fNChTrRDMultOJMC[ipt]->GetXaxis()->SetTitle("NTracks");
942 fNChTrRDMultOJMC[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
943 fNChTrRDMultOJMC[ipt]->Sumw2();
944 fOutputList->Add(fNChTrRDMultOJMC[ipt]);
945
946 fSCMRDMultOJMC[ipt] = new TH2F(Form("fSCMRDMultOJMC[%i]",ipt),"Second Central Moment, jet_{p_{T}}, 1 jet, MC",200,0.,0.2, 60, 0., 300.);
947 fSCMRDMultOJMC[ipt]->GetXaxis()->SetTitle("<#delta R_{c}^{2}>");
948 fSCMRDMultOJMC[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
949 fSCMRDMultOJMC[ipt]->Sumw2();
950 fOutputList->Add(fSCMRDMultOJMC[ipt]);
951
952 fNChTrRDMultSEOJMC[ipt] = new TH2F(Form("fNChTrRDMultSEOJMC[%i]",ipt),"Number of tracks to recover transverse energy, jet_{p_{T}}, 1 jet, MC",101,-0.5,100.5, 60, 0., 300.);
953 fNChTrRDMultSEOJMC[ipt]->GetXaxis()->SetTitle("NTracks");
954 fNChTrRDMultSEOJMC[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
955 fNChTrRDMultSEOJMC[ipt]->Sumw2();
956 fOutputList->Add(fNChTrRDMultSEOJMC[ipt]);
957
958 fSCMRDMultSEOJMC[ipt] = new TH2F(Form("fSCMRDMultSEOJMC[%i]",ipt),"Second Central Moment, jet_{p_{T}}, 1 jet, MC",200,0.,0.2, 60, 0., 300.);
959 fSCMRDMultSEOJMC[ipt]->GetXaxis()->SetTitle("<#delta R_{c}^{2}>");
960 fSCMRDMultSEOJMC[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
961 fSCMRDMultSEOJMC[ipt]->Sumw2();
962 fOutputList->Add(fSCMRDMultSEOJMC[ipt]);
963
964 fNChTrRecPerpMultSEOJ[ipt] = new TH2F(Form("fNChTrRecPerpMultSEOJ[%i]",ipt),"Number of tracks above the min pT used in NTX_Raw, jet_{p_{T}}, 1 jet",101,-0.5,100.5, 60, 0., 300.);
965 fNChTrRecPerpMultSEOJ[ipt]->GetXaxis()->SetTitle("NTracks_{Exc.}");
966 fNChTrRecPerpMultSEOJ[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
967 fNChTrRecPerpMultSEOJ[ipt]->Sumw2();
968 fOutputList->Add(fNChTrRecPerpMultSEOJ[ipt]);
17f4943e 969
970 fJEtaMCMultOJ[ipt] = new TH1F(Form("fJEtaMCMultOJ[%i]",ipt), "Eta distribution of MC jets, V0-like mult. bins, 1 jet", 50, -1.5, 1.5);
971 fJEtaMCMultOJ[ipt]->GetXaxis()->SetTitle("#eta");
972 fJEtaMCMultOJ[ipt]->GetYaxis()->SetTitle("entries");
973 fJEtaMCMultOJ[ipt]->Sumw2();
974 fOutputList->Add(fJEtaMCMultOJ[ipt]);
975
976 fJEtaMCMultSEOJ[ipt] = new TH1F(Form("fJEtaMCMultSEOJ[%i]",ipt), "Eta distribution of MC jets, TPC-like mult. bins, 1 jet", 50, -1.5, 1.5);
977 fJEtaMCMultSEOJ[ipt]->GetXaxis()->SetTitle("#eta");
978 fJEtaMCMultSEOJ[ipt]->GetYaxis()->SetTitle("entries");
979 fJEtaMCMultSEOJ[ipt]->Sumw2();
980 fOutputList->Add(fJEtaMCMultSEOJ[ipt]);
981
982 fJEtaRDMultOJ[ipt] = new TH1F(Form("fJEtaRDMultOJ[%i]",ipt), "Eta distribution of reco jets, V0 mult. bins, 1 jet", 50, -1.5, 1.5);
983 fJEtaRDMultOJ[ipt]->GetXaxis()->SetTitle("#eta");
984 fJEtaRDMultOJ[ipt]->GetYaxis()->SetTitle("entries");
985 fJEtaRDMultOJ[ipt]->Sumw2();
986 fOutputList->Add(fJEtaRDMultOJ[ipt]);
987
988 fJEtaRDMultSEOJ[ipt] = new TH1F(Form("fJEtaRDMultSEOJ[%i]",ipt), "Eta distribution of reco jets, TPC mult. bins, 1 jet", 50, -1.5, 1.5);
989 fJEtaRDMultSEOJ[ipt]->GetXaxis()->SetTitle("#eta");
990 fJEtaRDMultSEOJ[ipt]->GetYaxis()->SetTitle("entries");
991 fJEtaRDMultSEOJ[ipt]->Sumw2();
992 fOutputList->Add(fJEtaRDMultSEOJ[ipt]);
993
994 fJetPtMCMultOJ[ipt] = new TH1F(Form("fJetPtMCMultOJ[%i]",ipt), "pT distribution of MC jets, V0-like mult. bins, 1 jet", 60, 0., 300.);
995 fJetPtMCMultOJ[ipt]->GetXaxis()->SetTitle("p_{T} (GeV/c)");
996 fJetPtMCMultOJ[ipt]->GetYaxis()->SetTitle("entries");
997 fJetPtMCMultOJ[ipt]->Sumw2();
998 fOutputList->Add(fJetPtMCMultOJ[ipt]);
999
1000 fJetPtMCMultSEOJ[ipt] = new TH1F(Form("fJetPtMCMultSEOJ[%i]",ipt), "pT distribution of MC jets, TPC-like mult. bins, 1 jet", 60, 0., 300.);
1001 fJetPtMCMultSEOJ[ipt]->GetXaxis()->SetTitle("p_{T} (GeV/c)");
1002 fJetPtMCMultSEOJ[ipt]->GetYaxis()->SetTitle("entries");
1003 fJetPtMCMultSEOJ[ipt]->Sumw2();
1004 fOutputList->Add(fJetPtMCMultSEOJ[ipt]);
1005
1006 fJetPtRDMultOJ[ipt] = new TH1F(Form("fJetPtRDMultOJ[%i]",ipt), "pT distribution of reco jets, V0 mult. bins, 1 jet", 60, 0., 300.);
1007 fJetPtRDMultOJ[ipt]->GetXaxis()->SetTitle("p_{T} (GeV/c)");
1008 fJetPtRDMultOJ[ipt]->GetYaxis()->SetTitle("entries");
1009 fJetPtRDMultOJ[ipt]->Sumw2();
1010 fOutputList->Add(fJetPtRDMultOJ[ipt]);
1011
1012 fJetPtRDMultSEOJ[ipt] = new TH1F(Form("fJetPtRDMultSEOJ[%i]",ipt), "pT distribution of reco jets, TPC mult. bins, 1 jet", 60, 0., 300.);
1013 fJetPtRDMultSEOJ[ipt]->GetXaxis()->SetTitle("p_{T} (GeV/c)");
1014 fJetPtRDMultSEOJ[ipt]->GetYaxis()->SetTitle("entries");
1015 fJetPtRDMultSEOJ[ipt]->Sumw2();
1016 fOutputList->Add(fJetPtRDMultSEOJ[ipt]);
1017
1018 fEntriesQuark[ipt] = new TH2F(Form("fEntriesQuark[%i]",ipt),"NTX of quarks in multiplicity bins, 1 jet, MC",101,-0.5,100.5, 60, 0., 300.);
1019 fEntriesQuark[ipt]->GetXaxis()->SetTitle("NTracks");
1020 fEntriesQuark[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
1021 fEntriesQuark[ipt]->Sumw2();
1022 fOutputList->Add(fEntriesQuark[ipt]);
1023
1024 fEntriesGluon[ipt] = new TH2F(Form("fEntriesGluon[%i]",ipt),"NTX of gluons in multiplicity bins, 1 jet, MC",101,-0.5,100.5, 60, 0., 300.);
1025 fEntriesGluon[ipt]->GetXaxis()->SetTitle("NTracks");
1026 fEntriesGluon[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
1027 fEntriesGluon[ipt]->Sumw2();
1028 fOutputList->Add(fEntriesGluon[ipt]);
0c9acc4c 1029 } // end if <8
1030
1031 if(ipt<6) // only entries for reconstructed || simulated jets
1032 {
1033 fProcessPDG[ipt] = new TH2I(Form("fProcessPDG[%i]",ipt),"Pythia process and jet p_T", 60, 0., 300., 70, 0.5, 70.5);
1034 fProcessPDG[ipt]->GetXaxis()->SetTitle("p_{T}^{JET}");
1035 fProcessPDG[ipt]->GetYaxis()->SetTitle("Pythia process code");
1036 fProcessPDG[ipt]->Sumw2();
1037 fOutputList->Add(fProcessPDG[ipt]);
1038
1039 fFragPion[ipt] = new TH2F(Form("fFragPion[%i]",ipt),"Fragmentation in pions",35,0.,8.,50,0.,250.);
1040 fFragPion[ipt]->GetXaxis()->SetTitle("#xi=ln[Jet_{E_{T}}/H_{p_{T}}]");
1041 fFragPion[ipt]->GetYaxis()->SetTitle("Jet_{E_{T}}");
1042 fFragPion[ipt]->Sumw2();
1043 fOutputList->Add(fFragPion[ipt]);
1044
1045 fFragKaon[ipt] = new TH2F(Form("fFragKaon[%i]",ipt),"Fragmentation in kaons",35,0.,8.,50,0.,250.);
1046 fFragKaon[ipt]->GetXaxis()->SetTitle("#xi=ln[Jet_{E_{T}}/H_{p_{T}}]");
1047 fFragKaon[ipt]->GetYaxis()->SetTitle("Jet_{E_{T}}");
1048 fFragKaon[ipt]->Sumw2();
1049 fOutputList->Add(fFragKaon[ipt]);
1050
1051 fFragProton[ipt] = new TH2F(Form("fFragProton[%i]",ipt),"Fragmentation in protons",35,0.,8.,50,0.,250.);
1052 fFragProton[ipt]->GetXaxis()->SetTitle("#xi=ln[Jet_{E_{T}}/H_{p_{T}}]");
1053 fFragProton[ipt]->GetYaxis()->SetTitle("Jet_{E_{T}}");
1054 fFragProton[ipt]->Sumw2();
1055 fOutputList->Add(fFragProton[ipt]);
1056
1057 fFragChargedR4[ipt] = new TH2F(Form("fFragChargedR4[%i]",ipt),"Fragmentation in charged particles",35,0.,8.,50,0.,250.);
1058 fFragChargedR4[ipt]->GetXaxis()->SetTitle("#xi=ln[Jet_{E_{T}}/H_{p_{T}}]");
1059 fFragChargedR4[ipt]->GetYaxis()->SetTitle("Jet_{E_{T}}");
1060 fFragChargedR4[ipt]->Sumw2();
1061 fOutputList->Add(fFragChargedR4[ipt]);
1062
1063 fFragChargedR3[ipt] = new TH2F(Form("fFragChargedR3[%i]",ipt),"Fragmentation in charged particles",35,0.,8.,50,0.,250.);
1064 fFragChargedR3[ipt]->GetXaxis()->SetTitle("#xi=ln[Jet_{E_{T}}/H_{p_{T}}]");
1065 fFragChargedR3[ipt]->GetYaxis()->SetTitle("Jet_{E_{T}}");
1066 fFragChargedR3[ipt]->Sumw2();
1067 fOutputList->Add(fFragChargedR3[ipt]);
1068
1069 fFragChargedR2[ipt] = new TH2F(Form("fFragChargedR2[%i]",ipt),"Fragmentation in charged particles",35,0.,8.,50,0.,250.);
1070 fFragChargedR2[ipt]->GetXaxis()->SetTitle("#xi=ln[Jet_{E_{T}}/H_{p_{T}}]");
1071 fFragChargedR2[ipt]->GetYaxis()->SetTitle("Jet_{E_{T}}");
1072 fFragChargedR2[ipt]->Sumw2();
1073 fOutputList->Add(fFragChargedR2[ipt]);
1074
1075 // do not add the temporary containers
1076 fHistContainerR4[ipt] = new TH2F(Form("fHistContainerR4[%i]",ipt),"Temporary fragmentation in charged particles",35,0.,8.,50,0.,250.);
1077 fHistContainerR4[ipt]->GetXaxis()->SetTitle("#xi=ln[Jet_{E_{T}}/H_{p_{T}}]");
1078 fHistContainerR4[ipt]->GetYaxis()->SetTitle("Jet_{E_{T}}");
1079 fHistContainerR4[ipt]->Sumw2();
1080
1081 fHistContainerR3[ipt] = new TH2F(Form("fHistContainerR3[%i]",ipt),"Temporary fragmentation in charged particles",35,0.,8.,50,0.,250.);
1082 fHistContainerR3[ipt]->GetXaxis()->SetTitle("#xi=ln[Jet_{E_{T}}/H_{p_{T}}]");
1083 fHistContainerR3[ipt]->GetYaxis()->SetTitle("Jet_{E_{T}}");
1084 fHistContainerR3[ipt]->Sumw2();
1085
1086 fHistContainerR2[ipt] = new TH2F(Form("fHistContainerR2[%i]",ipt),"Temporary fragmentation in charged particles",35,0.,8.,50,0.,250.);
1087 fHistContainerR2[ipt]->GetXaxis()->SetTitle("#xi=ln[Jet_{E_{T}}/H_{p_{T}}]");
1088 fHistContainerR2[ipt]->GetYaxis()->SetTitle("Jet_{E_{T}}");
1089 fHistContainerR2[ipt]->Sumw2();
1090
1091 if(ipt<3)
1092 {
1093 fJetEtaJetPt[ipt] = new TH1F(Form("fJetEtaJetPt[%i]",ipt), "Eta distribution of reconstructed jets, all cut, with pT upper boundary", 50, -1.5, 1.5);
1094 fJetEtaJetPt[ipt]->GetXaxis()->SetTitle("#eta");
1095 fJetEtaJetPt[ipt]->GetYaxis()->SetTitle("entries");
1096 fJetEtaJetPt[ipt]->Sumw2();
1097 fOutputList->Add(fJetEtaJetPt[ipt]);
1098
1099 if(ipt<2)
1100 {
1101 fFragCandidates[ipt] = new TH2F(Form("fFragCandidates[%i]",ipt),"Parton identified candidates",35,0.,8.,50,0.,250.);
1102 fFragCandidates[ipt]->GetXaxis()->SetTitle("#xi=ln[Jet_{E_{T}}/H_{p_{T}}]");
1103 fFragCandidates[ipt]->GetYaxis()->SetTitle("Jet_{E_{T}}");
1104 fFragCandidates[ipt]->Sumw2();
1105 fOutputList->Add(fFragCandidates[ipt]);
1106
8dcbcbbb 1107 fMinTrackPtInNTXh[ipt] = new TH3F(Form("fMinTrackPtInNTXh[%i]",ipt), "Minimum track pT for the jets", 200, 0., 100., 60, 0., 300.,10,0.5,10.5);
0c9acc4c 1108 fMinTrackPtInNTXh[ipt]->GetXaxis()->SetTitle("p_{T}^{TRACK}");
1109 fMinTrackPtInNTXh[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
8dcbcbbb 1110 fMinTrackPtInNTXh[ipt]->GetZaxis()->SetTitle("Selection Bin"); //9 selection bins as fNChTrRecECorr
0c9acc4c 1111 fMinTrackPtInNTXh[ipt]->Sumw2();
1112 fOutputList->Add(fMinTrackPtInNTXh[ipt]);
1113
1114 fMaxTrackPtInNTXh[ipt] = new TH2F(Form("fMaxTrackPtInNTXh[%i]",ipt), "Maximum track pT for the jets", 200, 0., 100., 60, 0., 300.);
1115 fMaxTrackPtInNTXh[ipt]->GetXaxis()->SetTitle("p_{T}^{TRACK}");
1116 fMaxTrackPtInNTXh[ipt]->GetYaxis()->SetTitle("p_{T}^{JET}");
1117 fMaxTrackPtInNTXh[ipt]->Sumw2();
1118 fOutputList->Add(fMaxTrackPtInNTXh[ipt]);
1119 } // index < 2
1120 } // index < 3
1121 } // index < 6
1122 } // index < 12
1123
1124 fPerpCone = new AliAODJet();
1125 fBckgSbsJet = new Double_t[3];
1126
1127 PostData(1, fOutputList); // Post data for ALL output slots >0 here, to get at least an empty histogram
1128}
1129
1130//________________________________________________________________________
1131void AliAnalysisTaskPartonDisc::UserExec(Option_t *)
1132{
1133 // Main loop
1134 // Called for each event
1135
1136 // fAOD
1137 if(fUseAODJetInput)
1138 {
1139 fAOD = dynamic_cast<AliAODEvent*>(InputEvent());
1140 if(!fAOD)
1141 {
1142 Printf("%s:%d AODEvent not found in Input Manager %d",(char*)__FILE__,__LINE__,fUseAODJetInput);
1143 return;
1144 }
1145 // fetch the header
1146 }
1147 else
1148 {
1149 // assume that the AOD is in the general output...
1150 fAOD = AODEvent();
1151 if(!fAOD)
1152 {
1153 Printf("%s:%d AODEvent not found in the Output",(char*)__FILE__,__LINE__);
1154 return;
1155 }
1156 }
1157
1158 // fin de test para fAOD
1159
1160 if(!fInputEvent)
1161 {
1162 Error("UserExec","No event found!");
1163 return;
1164 }
1165
1166 AliAODHandler *aodHandler = (AliAODHandler*) ((AliAnalysisManager::GetAnalysisManager())->GetInputEventHandler());
1167 if(!aodHandler)
1168 {
1169 AliError("No AOD Handler!");
1170 return;
1171 }
1172
1173 fEventCent=900; //dummy val for debugging
1174
1175 if(fIsHIevent)
1176 {
0a918d8d 1177 AliAODHeader *aodHeader = dynamic_cast<AliAODHeader*>(fAOD->GetHeader());
1178 if(!aodHeader) AliFatal("Not a standard AOD");
0c9acc4c 1179 fEventCent = aodHeader->GetCentrality();
1180 }
1181
17f4943e 1182 // Random number generator seeded per event
1183 TDatime dt;
1184 UInt_t curtime = dt.Get();
1185 UInt_t procid = gSystem->GetPid();
1186 UInt_t seed = curtime-procid;
1187 gRandom->SetSeed(seed);
1188
8dcbcbbb 1189 // Jet eta exclusion
1190 if(fIncreasingExcl)
1191 fJetAcceptance = 0.5 - fIncExcR; // if the increase is 0.1 -> only jets within |eta|<0.4
1192
0c9acc4c 1193 // First test of reference multiplicity
0a918d8d 1194 AliAODHeader * header = dynamic_cast<AliAODHeader*>(fAOD->GetHeader());
1195 if(!header) AliFatal("Not a standard AOD");
1196
1197 Int_t refMultiplicity = header->GetRefMultiplicity();
0c9acc4c 1198 fRefMult->Fill(refMultiplicity);
1199
1200 // Multiplicity from V0 (V0A+V0C)
1201 fVZero = fAOD->GetVZEROData();
1202 Float_t multV0A = 0.0;
1203 Float_t multV0C = 0.0;
1204 Float_t multFullV0 = 0.0;
1205 if(fVZero)
1206 {
1207 multV0A = fVZero->GetMTotV0A();
1208 multV0C = fVZero->GetMTotV0C();
1209 multFullV0 = multV0A+multV0C;
1210 }
1211 fVZEROMult->Fill(multV0A,multV0C);
1212
1213 fEvtCount++;
1214 Double_t jfr = fJetRadius; // radius used during jet finding
1215 Int_t ntx = fNtX; // NTX value
1216 const Int_t maxJetNum=6; // maximum number of generated jets to process
1217 AliAODJet genJets[6]; // containers for the
1218 AliAODJet recJets[6]; // correlation gen-reco
1219 Int_t nGenJets=0;
1220 Int_t nRecJets=0;
1221 Int_t genJetsFlavor[6]={0}; // flavor of the generated jets
1222 Int_t evtype = 0; //pythia event type
1223 // Variables para la variable de estructura
1224 Double_t deltaPhiPt = 0.0;
1225 Double_t deltaEtaPt = 0.0;
1226 Double_t deltaPhiSqPt = 0.0;
1227 Double_t deltaEtaSqPt = 0.0;
1228 Double_t totalTrackPt = 0.0;
1229 Double_t firstMomDeltPhi = 0.0;
1230 Double_t firstMomDeltEta = 0.0;
1231 Double_t secondMomDeltPhi = 0.0;
1232 Double_t secondMomDeltEta = 0.0;
1233 Double_t secondCentralPhi = 0.0;
1234 Double_t secondCentralEta = 0.0;
1235 Double_t secondCentralR = 0.0;
1236
1237 // Variables para la variable de estructura
1238 // del cono perpendicular
1239 Double_t deltaPhiPtPerp = 0.0;
1240 Double_t deltaEtaPtPerp = 0.0;
1241 Double_t deltaPhiSqPtPerp = 0.0;
1242 Double_t deltaEtaSqPtPerp = 0.0;
1243 Double_t totalTrackPtPerp = 0.0;
1244 Double_t firstMomDeltPhiPerp = 0.0;
1245 Double_t firstMomDeltEtaPerp = 0.0;
1246 Double_t secondMomDeltPhiPerp = 0.0;
1247 Double_t secondMomDeltEtaPerp = 0.0;
1248 Double_t secondCentralPhiPerp = 0.0;
1249 Double_t secondCentralEtaPerp = 0.0;
1250 Double_t secondCentralRPerp = 0.0;
1251
1252 Double_t perpendicularPt;
1253 Float_t px,py,pz,en; // jet 4-vector à la UA1
1254 Float_t pTbs, etabs, phibs; // energy corrected jet properties
1255
1256 // Process the MC info from the AOD
1257 if(fUseAODMC)
1258 {
1259 // Get the MC array
1260 TClonesArray *mcarray = dynamic_cast<TClonesArray*>(fAOD->FindListObject(AliAODMCParticle::StdBranchName()));
1261 if(!mcarray)
1262 {
1263 AliError("ERROR:No MC info in the AOD input");
1264 return;
1265 }
1266
1267 AliMCEvent* mcEvent = MCEvent();
1268 if(mcEvent)
1269 {
1270 if(!fPhojetMC) // if it is pythia
1271 evtype = GetMCEventType(mcEvent);
1272 // From pythia 6.2 manual pp 414
1273 // QCD Hard Processes
1274 // 11 f_{i}+f_{j} -> f_{i}+f_{j} com77, ben84, eic84, chi90
1275 // 12 f_{i}+barf_{i} -> f_{k}+barf_{k}
1276 // 13 f_{i}+barf_{i} -> g+g
1277 // 28 f_{i}+g -> f_{i}+g
1278 // 53 g+g -> f_{k}+barf_{k}
1279 // 68 g+g -> g+g
1280 if(fPhojetMC) // if it is phojet
1281 evtype = GetPhojetEventType(mcEvent);
1282 }
1283 if(!mcEvent) // if a pure AOD event
1284 {
1285 AliDebug(2,Form("%s:%d No MCEvent \n",(char*)__FILE__,__LINE__));
1286 AliDebug(2,Form("Trying to get the MC header \n"));
1287 AliAODMCHeader *genEvH = static_cast<AliAODMCHeader*>(fAOD->FindListObject("mcHeader"));
1288 if(!genEvH)
1289 {
1290 AliDebug(2,Form(" %s:%d No Pythia header!",(char*)__FILE__,__LINE__));
1291 evtype = 0;
1292 }
1293 if(genEvH)
1294 evtype = genEvH->GetEventType();
1295 }
1296 // Get the branch with the MC jets
1297 TClonesArray *aodMCJets = dynamic_cast<TClonesArray*>(fAOD->FindListObject(fBranchMC.Data()));
1298 if(!aodMCJets)
1299 {
1300 AliDebug(2,Form("%s:%d no MC Jet array with name %s in AOD",(char*)__FILE__,__LINE__,fBranchMC.Data()));
1301 return;
1302 }
1303 AliDebug(2,Form("There are %d MC jets in this event\n", aodMCJets->GetEntries()));
1304 Int_t mcjets = aodMCJets->GetEntries();
1305 fNJetsMC->Fill(mcjets,mcjets); // number of jets FROM the branch, filled per event, this gives the event normalization...
1306 HasOverlapedCones(aodMCJets); // Procedure for tagging usable jets
1307 // Up 16 jets are flagged
1308
1309 // Loop over AODMC physical primary charged particles
1310 // for the complete event
1311 Int_t tracksMC = mcarray->GetEntriesFast();
1312 AliDebug(2,Form("There are %i tracks in the mcarray",tracksMC));
1313 Double_t aodMCTrackEta = 0.0;
1314 perpendicularPt = 0.0;
1315 px=0.0;
1316 py=0.0;
1317 pz=0.0;
1318 en=0.0;
1319 pTbs=0.0;
1320 etabs=0.0;
1321 phibs=0.0;
1322 fBckgSbsJet[0]=0.0;
1323 fBckgSbsJet[1]=0.0;
1324 fBckgSbsJet[2]=0.0;
1325 Int_t softRefMcNoJets = 0;
1326 Int_t myTotalMultiplicityMc = 0;
1327 Int_t v0LikeTotalMcMult = 0;
17f4943e 1328 Double_t randomNum = 0.;
0c9acc4c 1329 for(Int_t aodMCTrack = 0; aodMCTrack < tracksMC; aodMCTrack++ )
1330 {
1331 AliAODMCParticle *mctrackf = (AliAODMCParticle*) mcarray->At(aodMCTrack);
1332 if(!mctrackf) continue;
1333 if(!mctrackf->IsPhysicalPrimary()) continue;
1334 if(mctrackf->Charge()==0||mctrackf->Charge()==-99) continue;
17f4943e 1335 randomNum = gRandom->Rndm();
1336 if(randomNum<fTTrackRandomRejection) continue; //rechaza fTTrackRandomRejection
1337
0c9acc4c 1338 //Lo del V0, voy a contar particulas primarias cargadas
17f4943e 1339 if(mctrackf->Pt()>fMinpTValMC) // cut off en MC para MIPs
0c9acc4c 1340 {
1341 //V0A
1342 if(((mctrackf->Eta())>(2.8))&&((mctrackf->Eta())<(5.1)))
1343 v0LikeTotalMcMult++;
1344 //V0C
1345 if(((mctrackf->Eta())>(-3.7))&&((mctrackf->Eta())<(-1.7)))
1346 v0LikeTotalMcMult++;
1347 }
1348 //Fin de lo del V0
1349 aodMCTrackEta = TMath::Abs(mctrackf->Eta());
1350 if(aodMCTrackEta>0.9) continue;
1351 fPtAODMC->Fill(mctrackf->Pt(),mctrackf->Pt());
1352 fEtaAODMC->Fill(mctrackf->Eta(),mctrackf->Eta());
1353 fPhiAODMC->Fill(mctrackf->Phi(),mctrackf->Phi());
1354 if(fJetEvent) // if has an accepted jet, calculate the perpendicular cone
1355 {
1356 if(HasPerpendicularCone()) // If there is a perpendicular cone available
1357 {
1358 if(mctrackf->Pt()>fMinpTVal)
1359 {
1360 if(GetDeltaR(fEtaPerpCoord,fPhiPerpCoord,mctrackf->Eta(),mctrackf->Phi())<fJetRadius)
1361 perpendicularPt = perpendicularPt + mctrackf->Pt();
1362 }
1363 }
1364 } // end IF jet event
17f4943e 1365 if(mctrackf->Pt()>fMinPtInGlobMult) // Min pT used in multiplicity estimation
0c9acc4c 1366 {
1367 myTotalMultiplicityMc++; // total multiplicity TPC like
1368 if(mctrackf->Pt()<fMinpTValUE) continue; // pT cut fMinpTValUE
1369 if(mctrackf->Pt()>fMaxpTValUE) continue; // pT cut fMaxpTValUE
1370 if(!IsTrackInsideExcludedArea(mctrackf->Eta(), mctrackf->Phi(), aodMCJets))
1371 softRefMcNoJets++;
1372 }
1373 } // end loop over particles
1374
1375 Int_t correctedV0LikeMult= v0LikeTotalMcMult-GetV0LikeExcludedMultMC(aodMCJets,mcarray);
1376
1377 //estimadores
1378 if(mcjets==1) // correlation for only monojet events
1379 {
1380 fFullV0V0CorrUJMC->Fill(v0LikeTotalMcMult,correctedV0LikeMult);
1381 fTrackCountWOJetUJMC->Fill(myTotalMultiplicityMc,softRefMcNoJets);
1382 }
1383
1384 if(fJetEvent) // if has an accepted jet, calculate the perpendicular cone
1385 {
1386 if(HasPerpendicularCone()) // If there is a perpendicular cone available
1387 {
1388 px = perpendicularPt*TMath::Cos(fPhiPerpCoord);
1389 py = perpendicularPt*TMath::Sin(fPhiPerpCoord);
1390 pz = perpendicularPt/TMath::Tan(2.0*TMath::ATan(TMath::Exp(-fEtaPerpCoord)));
1391 en = TMath::Sqrt(px*px + py*py + pz*pz);
1392 fPerpCone->SetPxPyPzE(px, py, pz, en);
1393 }
1394 if(!HasPerpendicularCone())
1395 AliDebug(2,"No perpendicular cone!!!");
1396 }
1397
1398
1399 fh1Trials->Fill("#sum{ntrials}",fAvgTrials);
1400
1401 Int_t flavor = 0; // flavor of the jet
1402 Int_t nTracksPerc; // ntx for the original jet
1403 Int_t nTracksPercBckgSubst; // ntx for the energy corrected jet
1404 Double_t jetPt=0;
1405 Int_t pdgOfMCt;
1406 Float_t trackxi;
1407 Double_t jetXt;
1408 Double_t jetPts[7]={0}; // to store the pt of the jets
1409 Int_t mcJetCounter=0; // counter of MC jets
1410 Int_t nTracksAboveThresholdPerp=0; // n tracks of the perpendicular cone
1411 Int_t nTrUpThrPerpBckSubs=0; // n tracks of the perpendicular cone, after the minimum pT recalculation
1412 fIsPossibleToSubstBckg = kTRUE; // Initialize before the loop
1413 if(fJetEvent) // si tiene jets validos
1414 {
1415 if(!HasPerpendicularCone()) // pero no encontro un cono perpendicular libre
1416 fIsPossibleToSubstBckg = kFALSE; // if not perpendicular cone, set to kFALSE, so no perpendicular calculations available
1417 }
1418 // Loop to fill a pT spectrum of the mc jets
1419 Int_t imcj=0; // index for montecarlo jets to correlate
1420 for (Int_t indxmc = 0; indxmc < mcjets; indxmc++)
1421 {
1422 AliAODJet *mcjet = dynamic_cast<AliAODJet*>(aodMCJets->At(indxmc));
1423 if (!mcjet)
1424 {
1425 AliDebug(2,Form("ERROR: Could not receive jet %d\n", indxmc));
1426 continue;
1427 }
1428
1429 ///////////////////////////////////////////////////////////////////////////////
1430 ///// Part for Chritians plot of inclusive and leading jets comp at 2.76 TeV //
1431 if(!IsInsideAcceptance(mcjet)) // old condition
1432 continue;
1433 if(indxmc==0) // leading jet
1434 fMCJetPtLeading->Fill(mcjet->Pt());
1435 fMCJetPtInclusive->Fill(mcjet->Pt()); // all
1436 ///// End of Christians Plot MC
1437 ///////////////////////////////////////////////////////////////////////////////
1438
1439 if(indxmc>15)
1440 continue;
1441
1442 if(!fJetFlags[indxmc]) // If the jet is flaged kFALSE, not usable
1443 continue;
1444
1445 //Initialize variables for this jet
1446 //adiciones para la variable de estructura
1447 nTracksPerc = 0;
1448 nTracksPercBckgSubst = 0;
1449 fMinTrackPtInNTX=200.0; //Initialize for each jet, overflown
1450 fMaxTrackPtInNTX=200.0; //Initialize for each jet, overflown
1451 fMinTrackPtInNTXR=200.0; //Initialize for each jet, overflown
1452 fMaxTrackPtInNTXR=200.0; //Initialize for each jet, overflown
1453 deltaPhiPt = 0.0;
1454 deltaEtaPt = 0.0;
1455 deltaPhiSqPt = 0.0;
1456 deltaEtaSqPt = 0.0;
1457 totalTrackPt = 0.0;
1458 firstMomDeltPhi = 0.0;
1459 firstMomDeltEta = 0.0;
1460 secondMomDeltPhi = 0.0;
1461 secondMomDeltEta = 0.0;
1462 secondCentralPhi = 0.0;
1463 secondCentralEta = 0.0;
1464 secondCentralR = 0.0;
1465
1466 if(imcj<maxJetNum)
1467 genJets[imcj]= *mcjet;
1468 if(mcJetCounter<maxJetNum)
1469 jetPts[mcJetCounter]=mcjet->Pt();
1470 mcJetCounter++; // number of jets in the acceptance
1471 jetPt = mcjet->Pt();
1472 flavor = GetJetFlavour(mcjet,tracksMC,mcarray);
1473 if(imcj<maxJetNum)
1474 genJetsFlavor[imcj] = flavor;
1475 fJetPtMC->Fill(mcjet->Pt());
1476 fJetEtaMC->Fill(mcjet->Eta(),mcjet->Eta());
1477 fJetPhiMC->Fill(mcjet->Phi(),mcjet->Phi());
1478 fFlavor->Fill(flavor,jetPt);
1479 AliDebug(4,Form("Sabor del jet con pt=%f es :%d \n",jetPt,flavor));
1480 nTracksPerc = GetNumberOfMcChargedTracks(ntx,mcjet,tracksMC,mcarray,jfr); // este fija el min track pT, si es posible substraer el bckg
1481 if(fIsPossibleToSubstBckg&&!IsEqualRel(fCurrentJetMinPtNT90, 7000.)) //calculating only if there is a perpendicular cone available //IsEqualRel(jetpT, 0.0) //fCurrentJetMinPtNT90!=7000.
1482 { //and only if the method worked
1483 AliDebug(4,Form("For this jet and I have a perpendicular cone available"));
1484 // Aqui lo que debo contar es el numero de tracks arriba del min pT del jet correspondiente
1485 // que es fCurrentJetMinPtNT90
1486 nTracksAboveThresholdPerp = GetNMcChargedTracksAboveThreshold(fPerpCone,tracksMC,mcarray,jfr);
1487 }
1488 // Corrected jet (pT)
1489 if(fIsPossibleToSubstBckg) // for the current jet
1490 {
1491 pTbs= mcjet->Pt()-fPerpCone->Pt();
1492 etabs= mcjet->Eta();
1493 phibs= mcjet->Phi();
1494 fBckgSbsJet[0]=pTbs; //pT
1495 fBckgSbsJet[1]=etabs; //eta
1496 fBckgSbsJet[2]=phibs; //phi
1497 // Now re-calculate nt90 for the energy corrected jet
1498 nTracksPercBckgSubst = GetRecalcNTXMc(ntx,mcjet,tracksMC,mcarray,jfr);
1499 // Now re-calculate the perpendicular cone NT90 background
1500 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.)) //calculating for the current jet, if the previos method worked //!IsEqualRel(fCurrentJetMinPtNT90, 7000.) //fCurrentJetMinPtNT90Recalc!=7000.
1501 {
1502 // Aqui lo que debo contar es el numero de tracks arriba del min pT del jet correspondiente
1503 // despues de la correccion de energia del jet
1504 nTrUpThrPerpBckSubs = GetRecalcNMcChTrUpThr(fPerpCone,tracksMC,mcarray,jfr);
1505 }
1506 }
1507
1508 //check cross sections incoming partons
1509 jetXt= 2*jetPt/fSqrts;
1510 if(evtype==11||evtype==12||evtype==13) //QQ
1511 fFracQQ->Fill(jetXt);
1512 if(evtype==28) //GQ
1513 fFracGQ->Fill(jetXt);
1514 if(evtype==53||evtype==68) //GG
1515 fFracGG->Fill(jetXt);
1516
1517 //check cross sections outgoing partons
1518 if(evtype==11||evtype==12||evtype==53) //QQ
1519 fFracOutGoingQQ->Fill(jetXt);
1520 if(evtype==28) //GQ
1521 fFracOutGoingGQ->Fill(jetXt);
1522 if(evtype==13||evtype==68) //GG
1523 fFracOutGoingGG->Fill(jetXt);
1524
1525 fProcessJetPt->Fill(evtype,jetPt); // pythia process, filled for each jet in acceptance
1526
1527 //Fill jet flavor as a function of pT and the pythia process but only leading jet
1528 if(imcj==0) //leading jet
1529 {
1530 fFlavorLead->Fill(flavor,jetPt);
1531 fProcessLeadJetPt->Fill(evtype,jetPt);
1532 }
1533 AliDebug(4,Form("Before the check of comparison"));
1534 // To check tracks related to this MC jet
1535 // RefTracks check
1536 Bool_t rTrkFlagMC = kFALSE;
1537 Int_t trkinmcjet = mcjet->GetRefTracks()->GetEntriesFast();
1538 if(trkinmcjet!=0&&!fForceNotTR)
1539 rTrkFlagMC = kTRUE;
1540 AliDebug(4,Form("Number of tracks in RefTracks MC jet:%i \n",trkinmcjet));
1541 if(rTrkFlagMC) // If there are tracks refs available
1542 {
1543 AliDebug(4,Form("Checking composition in MC with track refs"));
1544 for(Int_t aodMCT = 0; aodMCT < trkinmcjet; aodMCT++ )
1545 {
1546 pdgOfMCt=0;
1547 trackxi=0;
1548 AliAODMCParticle *mctrack = (AliAODMCParticle*) mcjet->GetRefTracks()->At(aodMCT);
1549 if(!mctrack) continue;
1550 if(!mctrack->IsPhysicalPrimary()) continue;
1551 if(mctrack->Charge()==0||mctrack->Charge()==-99) continue;
1552 if(mctrack->Pt()<fMinpTVal) continue; // MC no cut in the case of track reference, should be in, NO, cut anyhow to be safe
17f4943e 1553 randomNum = gRandom->Rndm();
1554 if(randomNum<fJTrackRandomRejection) continue; //rechaza fJTrackRandomRejection
0c9acc4c 1555 deltaPhiPt += DeltaPhiMC(mcjet, mctrack)*mctrack->Pt();
1556 deltaEtaPt += DeltaEtaMC(mcjet, mctrack)*mctrack->Pt();
1557 deltaPhiSqPt += DeltaPhiSqMC(mcjet, mctrack)*mctrack->Pt();
1558 deltaEtaSqPt += DeltaEtaSqMC(mcjet, mctrack)*mctrack->Pt();
1559 totalTrackPt += mctrack->Pt();
1560
1561 pdgOfMCt=abs(mctrack->GetPdgCode());
1562 if(!IsEqualRel(mctrack->Pt(), 0.0)) //!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.) // mctrack->Pt()!=0
1563 trackxi= log(jetPt/mctrack->Pt());
1564 switch(abs(flavor))
1565 {
1566 case 1:
1567 if(pdgOfMCt==321)
1568 fFragKaon[0]->Fill(trackxi,jetPt);
1569 if(pdgOfMCt==211)
1570 fFragPion[0]->Fill(trackxi,jetPt);
1571 if(pdgOfMCt==2212)
1572 fFragProton[0]->Fill(trackxi,jetPt);
1573 break;
1574 case 2:
1575 if(pdgOfMCt==321)
1576 fFragKaon[1]->Fill(trackxi,jetPt);
1577 if(pdgOfMCt==211)
1578 fFragPion[1]->Fill(trackxi,jetPt);
1579 if(pdgOfMCt==2212)
1580 fFragProton[1]->Fill(trackxi,jetPt);
1581 break;
1582 case 3:
1583 if(pdgOfMCt==321)
1584 fFragKaon[2]->Fill(trackxi,jetPt);
1585 if(pdgOfMCt==211)
1586 fFragPion[2]->Fill(trackxi,jetPt);
1587 if(pdgOfMCt==2212)
1588 fFragProton[2]->Fill(trackxi,jetPt);
1589 break;
1590 case 4:
1591 if(pdgOfMCt==321)
1592 fFragKaon[3]->Fill(trackxi,jetPt);
1593 if(pdgOfMCt==211)
1594 fFragPion[3]->Fill(trackxi,jetPt);
1595 if(pdgOfMCt==2212)
1596 fFragProton[3]->Fill(trackxi,jetPt);
1597 break;
1598 case 5:
1599 if(pdgOfMCt==321)
1600 fFragKaon[4]->Fill(trackxi,jetPt);
1601 if(pdgOfMCt==211)
1602 fFragPion[4]->Fill(trackxi,jetPt);
1603 if(pdgOfMCt==2212)
1604 fFragProton[4]->Fill(trackxi,jetPt);
1605 break;
1606 case 21:
1607 if(pdgOfMCt==321)
1608 fFragKaon[5]->Fill(trackxi,jetPt);
1609 if(pdgOfMCt==211)
1610 fFragPion[5]->Fill(trackxi,jetPt);
1611 if(pdgOfMCt==2212)
1612 fFragProton[5]->Fill(trackxi,jetPt);
1613 break;
1614 default:
1615 break;
1616 } // end switch flavor
1617 }// end loop over AODMC particles of trackrefs
1618 if(!IsEqualRel(totalTrackPt, 0.0)) //!IsEqualRel(totalTrackPt, 0.0) //totalTrackPt!=0.0
1619 {
1620 firstMomDeltPhi = deltaPhiPt/totalTrackPt;
1621 firstMomDeltEta = deltaEtaPt/totalTrackPt;
1622 secondMomDeltPhi = deltaPhiSqPt/totalTrackPt;
1623 secondMomDeltEta = deltaEtaSqPt/totalTrackPt;
1624 secondCentralPhi = secondMomDeltPhi - firstMomDeltPhi*firstMomDeltPhi;
1625 secondCentralEta = secondMomDeltEta - firstMomDeltEta*firstMomDeltEta;
1626 secondCentralR = secondCentralPhi + secondCentralEta;
1627 } // end if totalTrackPt!=0.0
1628 if(IsEqualRel(totalTrackPt, 0.0)) //totalTrackPt==0.0
1629 secondCentralR = 10.0; //overflow
1630 }// end version with ref tracks (flag check)
1631
1632 if(!rTrkFlagMC) // No ref tracks available
1633 {
1634 AliDebug(4,Form("Checking composition in MC without track refs"));
1635 for(Int_t aodMCT = 0; aodMCT < tracksMC; aodMCT++ )
1636 {
1637 pdgOfMCt=0;
1638 trackxi=0;
1639 AliAODMCParticle *mctrack = (AliAODMCParticle*) mcarray->At(aodMCT);
1640 if(!mctrack) continue;
1641 if(!mctrack->IsPhysicalPrimary()) continue;
1642 if(mctrack->Charge()==0||mctrack->Charge()==-99) continue;
1643 if(!IsMCTrackInsideThisJet(mctrack, mcjet, jfr)) continue;
1644 if(mctrack->Pt()<fMinpTVal) continue; // MC: HERE PT CUT, NO TRACK REF
17f4943e 1645 randomNum = gRandom->Rndm();
1646 if(randomNum<fJTrackRandomRejection) continue; //rechaza fJTrackRandomRejection
0c9acc4c 1647 deltaPhiPt += DeltaPhiMC(mcjet, mctrack)*mctrack->Pt();
1648 deltaEtaPt += DeltaEtaMC(mcjet, mctrack)*mctrack->Pt();
1649 deltaPhiSqPt += DeltaPhiSqMC(mcjet, mctrack)*mctrack->Pt();
1650 deltaEtaSqPt += DeltaEtaSqMC(mcjet, mctrack)*mctrack->Pt();
1651 totalTrackPt += mctrack->Pt();
1652
1653 pdgOfMCt=abs(mctrack->GetPdgCode());
1654 if(!IsEqualRel(mctrack->Pt(), 0.0)) //!IsEqualRel(mctrack->Pt(), 0.0) // mctrack->Pt()!=0
1655 trackxi= log(jetPt/mctrack->Pt());
1656 switch(flavor)
1657 {
1658 case 1:
1659 if(pdgOfMCt==321)
1660 fFragKaon[0]->Fill(trackxi,jetPt);
1661 if(pdgOfMCt==211)
1662 fFragPion[0]->Fill(trackxi,jetPt);
1663 if(pdgOfMCt==2212)
1664 fFragProton[0]->Fill(trackxi,jetPt);
1665 break;
1666 case 2:
1667 if(pdgOfMCt==321)
1668 fFragKaon[1]->Fill(trackxi,jetPt);
1669 if(pdgOfMCt==211)
1670 fFragPion[1]->Fill(trackxi,jetPt);
1671 if(pdgOfMCt==2212)
1672 fFragProton[1]->Fill(trackxi,jetPt);
1673 break;
1674 case 3:
1675 if(pdgOfMCt==321)
1676 fFragKaon[2]->Fill(trackxi,jetPt);
1677 if(pdgOfMCt==211)
1678 fFragPion[2]->Fill(trackxi,jetPt);
1679 if(pdgOfMCt==2212)
1680 fFragProton[2]->Fill(trackxi,jetPt);
1681 break;
1682 case 4:
1683 if(pdgOfMCt==321)
1684 fFragKaon[3]->Fill(trackxi,jetPt);
1685 if(pdgOfMCt==211)
1686 fFragPion[3]->Fill(trackxi,jetPt);
1687 if(pdgOfMCt==2212)
1688 fFragProton[3]->Fill(trackxi,jetPt);
1689 break;
1690 case 5:
1691 if(pdgOfMCt==321)
1692 fFragKaon[4]->Fill(trackxi,jetPt);
1693 if(pdgOfMCt==211)
1694 fFragPion[4]->Fill(trackxi,jetPt);
1695 if(pdgOfMCt==2212)
1696 fFragProton[4]->Fill(trackxi,jetPt);
1697 break;
1698 case 21:
1699 if(pdgOfMCt==321)
1700 fFragKaon[5]->Fill(trackxi,jetPt);
1701 if(pdgOfMCt==211)
1702 fFragPion[5]->Fill(trackxi,jetPt);
1703 if(pdgOfMCt==2212)
1704 fFragProton[5]->Fill(trackxi,jetPt);
1705 break;
1706 default:
1707 break;
1708 } // end switch flavor
1709 }// end loop over AODMC particles
1710 if(!IsEqualRel(totalTrackPt, 0.0)) //!IsEqualRel(totalTrackPt, 0.0) // totalTrackPt!=0.0
1711 {
1712 firstMomDeltPhi = deltaPhiPt/totalTrackPt;
1713 firstMomDeltEta = deltaEtaPt/totalTrackPt;
1714 secondMomDeltPhi = deltaPhiSqPt/totalTrackPt;
1715 secondMomDeltEta = deltaEtaSqPt/totalTrackPt;
1716 secondCentralPhi = secondMomDeltPhi - firstMomDeltPhi*firstMomDeltPhi;
1717 secondCentralEta = secondMomDeltEta - firstMomDeltEta*firstMomDeltEta;
1718 secondCentralR = secondCentralPhi + secondCentralEta;
1719 } // end if totalTrackPt!=0.0
1720 if(IsEqualRel(totalTrackPt, 0.0)) //!IsEqualRel(totalTrackPt, 0.0) //totalTrackPt==0.0
1721 secondCentralR = 10.0; //overflow
1722 } //End old version (no ref tracks)
1723
1724 if(fIsPossibleToSubstBckg)
1725 {
1726 // To make sure, re-initialize
1727 deltaPhiPtPerp = 0.0;
1728 deltaEtaPtPerp = 0.0;
1729 deltaPhiSqPtPerp = 0.0;
1730 deltaEtaSqPtPerp = 0.0;
1731 totalTrackPtPerp = 0.0;
1732 firstMomDeltPhiPerp = 0.0;
1733 firstMomDeltEtaPerp = 0.0;
1734 secondMomDeltPhiPerp = 0.0;
1735 secondMomDeltEtaPerp = 0.0;
1736 secondCentralPhiPerp = 0.0;
1737 secondCentralEtaPerp = 0.0;
1738 secondCentralRPerp = 0.0;
1739
1740 AliDebug(4,Form("Checking SCM in MC for the perpendicular cone"));
1741 for(Int_t aodMCperp = 0; aodMCperp < tracksMC; aodMCperp++ )
1742 {
1743 AliAODMCParticle *mctrackperp = (AliAODMCParticle*) mcarray->At(aodMCperp);
1744 if(!mctrackperp) continue;
1745 if(!mctrackperp->IsPhysicalPrimary()) continue;
1746 if(mctrackperp->Charge()==0||mctrackperp->Charge()==-99) continue;
1747 if(!IsMCTrackInsideThisJet(mctrackperp, fPerpCone, jfr)) continue;
1748 if(mctrackperp->Pt()<fMinpTVal) continue; // MC: HERE PT CUT
17f4943e 1749 randomNum = gRandom->Rndm();
1750 if(randomNum<fJTrackRandomRejection) continue; //rechaza fJTrackRandomRejection
0c9acc4c 1751 deltaPhiPtPerp += DeltaPhiMC(fPerpCone, mctrackperp)*mctrackperp->Pt();
1752 deltaEtaPtPerp += DeltaEtaMC(fPerpCone, mctrackperp)*mctrackperp->Pt();
1753 deltaPhiSqPtPerp += DeltaPhiSqMC(fPerpCone, mctrackperp)*mctrackperp->Pt();
1754 deltaEtaSqPtPerp += DeltaEtaSqMC(fPerpCone, mctrackperp)*mctrackperp->Pt();
1755 totalTrackPtPerp += mctrackperp->Pt();
1756 }// end loop over AODMC particles
1757 if(!IsEqualRel(totalTrackPtPerp, 0.0)) //!IsEqualRel(totalTrackPt, 0.0) // totalTrackPtPerp!=0.0
1758 {
1759 firstMomDeltPhiPerp = deltaPhiPtPerp/totalTrackPtPerp;
1760 firstMomDeltEtaPerp = deltaEtaPtPerp/totalTrackPtPerp;
1761 secondMomDeltPhiPerp = deltaPhiSqPtPerp/totalTrackPtPerp;
1762 secondMomDeltEtaPerp = deltaEtaSqPtPerp/totalTrackPtPerp;
1763 secondCentralPhiPerp = secondMomDeltPhiPerp - firstMomDeltPhiPerp*firstMomDeltPhiPerp;
1764 secondCentralEtaPerp = secondMomDeltEtaPerp - firstMomDeltEtaPerp*firstMomDeltEtaPerp;
1765 secondCentralRPerp = secondCentralPhiPerp + secondCentralEtaPerp;
1766 } // end if totalTrackPt!=0.0
1767 if(IsEqualRel(totalTrackPtPerp, 0.0)) //!IsEqualRel(totalTrackPtPerp, 0.0) //totalTrackPtPerp==0.0
1768 secondCentralRPerp = 10.0; //overflow
1769 }
1770 ///// end of adding the SCM for the perpendicular cone
1771
1772 if(mcjets==1) // if only one jet in the whole event, and inside acceptance
1773 {
1774 // reference multiplicity stuff in pp, also filled in PbPb, but does not matter.
1775 // set to: V0 like corrected multiplicity: correctedV0LikeMult
1776 if(correctedV0LikeMult<25)
1777 {
1778 fNChTrRDMultOJMC[0]->Fill(nTracksPerc,jetPt);
1779 fSCMRDMultOJMC[0]->Fill(secondCentralR,jetPt);
17f4943e 1780 fJEtaMCMultOJ[0]->Fill(mcjet->Eta());
1781 fJetPtMCMultOJ[0]->Fill(mcjet->Pt());
0c9acc4c 1782 }
1783 if(correctedV0LikeMult>=25&&correctedV0LikeMult<50)
1784 {
1785 fNChTrRDMultOJMC[1]->Fill(nTracksPerc,jetPt);
1786 fSCMRDMultOJMC[1]->Fill(secondCentralR,jetPt);
17f4943e 1787 fJEtaMCMultOJ[1]->Fill(mcjet->Eta());
1788 fJetPtMCMultOJ[1]->Fill(mcjet->Pt());
0c9acc4c 1789 }
1790 if(correctedV0LikeMult>=50&&correctedV0LikeMult<90)
1791 {
1792 fNChTrRDMultOJMC[2]->Fill(nTracksPerc,jetPt);
1793 fSCMRDMultOJMC[2]->Fill(secondCentralR,jetPt);
17f4943e 1794 fJEtaMCMultOJ[2]->Fill(mcjet->Eta());
1795 fJetPtMCMultOJ[2]->Fill(mcjet->Pt());
0c9acc4c 1796 }
1797 if(correctedV0LikeMult>=90&&correctedV0LikeMult<120)
1798 {
1799 fNChTrRDMultOJMC[3]->Fill(nTracksPerc,jetPt);
1800 fSCMRDMultOJMC[3]->Fill(secondCentralR,jetPt);
17f4943e 1801 fJEtaMCMultOJ[3]->Fill(mcjet->Eta());
1802 fJetPtMCMultOJ[3]->Fill(mcjet->Pt());
0c9acc4c 1803 }
1804 if(correctedV0LikeMult>=120&&correctedV0LikeMult<150)
1805 {
1806 fNChTrRDMultOJMC[4]->Fill(nTracksPerc,jetPt);
1807 fSCMRDMultOJMC[4]->Fill(secondCentralR,jetPt);
17f4943e 1808 fJEtaMCMultOJ[4]->Fill(mcjet->Eta());
1809 fJetPtMCMultOJ[4]->Fill(mcjet->Pt());
0c9acc4c 1810 }
1811 if(correctedV0LikeMult>=150&&correctedV0LikeMult<200)
1812 {
1813 fNChTrRDMultOJMC[5]->Fill(nTracksPerc,jetPt);
1814 fSCMRDMultOJMC[5]->Fill(secondCentralR,jetPt);
17f4943e 1815 fJEtaMCMultOJ[5]->Fill(mcjet->Eta());
1816 fJetPtMCMultOJ[5]->Fill(mcjet->Pt());
0c9acc4c 1817 }
1818 if(correctedV0LikeMult>=200&&correctedV0LikeMult<300)
1819 {
1820 fNChTrRDMultOJMC[6]->Fill(nTracksPerc,jetPt);
1821 fSCMRDMultOJMC[6]->Fill(secondCentralR,jetPt);
17f4943e 1822 fJEtaMCMultOJ[6]->Fill(mcjet->Eta());
1823 fJetPtMCMultOJ[6]->Fill(mcjet->Pt());
0c9acc4c 1824 }
1825 if(correctedV0LikeMult>=300)
1826 {
1827 fNChTrRDMultOJMC[7]->Fill(nTracksPerc,jetPt);
1828 fSCMRDMultOJMC[7]->Fill(secondCentralR,jetPt);
17f4943e 1829 fJEtaMCMultOJ[7]->Fill(mcjet->Eta());
1830 fJetPtMCMultOJ[7]->Fill(mcjet->Pt());
0c9acc4c 1831 }
1832 //Results for inclusive jets
1833 // 2nd. Reference: set to: TPC tracks minus jet, minus dijet area
1834 if(softRefMcNoJets<5)
1835 {
1836 fNChTrRDMultSEOJMC[0]->Fill(nTracksPerc,jetPt);
1837 fSCMRDMultSEOJMC[0]->Fill(secondCentralR,jetPt);
17f4943e 1838 fJEtaMCMultSEOJ[0]->Fill(mcjet->Eta());
1839 fJetPtMCMultSEOJ[0]->Fill(mcjet->Pt());
1840 if(abs(flavor)==1||abs(flavor)==2||abs(flavor)==3||abs(flavor)==4||abs(flavor)==5) //if quark jet
1841 fEntriesQuark[0]->Fill(nTracksPerc,jetPt);
1842 if(abs(flavor)==21) //if gluon jet
1843 fEntriesGluon[0]->Fill(nTracksPerc,jetPt);
0c9acc4c 1844 }
1845 if(softRefMcNoJets>=5&&softRefMcNoJets<10)
1846 {
1847 fNChTrRDMultSEOJMC[1]->Fill(nTracksPerc,jetPt);
17f4943e 1848 fSCMRDMultSEOJMC[1]->Fill(secondCentralR,jetPt);
1849 fJEtaMCMultSEOJ[1]->Fill(mcjet->Eta());
1850 fJetPtMCMultSEOJ[1]->Fill(mcjet->Pt());
1851 if(abs(flavor)==1||abs(flavor)==2||abs(flavor)==3||abs(flavor)==4||abs(flavor)==5) //if quark jet
1852 fEntriesQuark[1]->Fill(nTracksPerc,jetPt);
1853 if(abs(flavor)==21) //if gluon jet
1854 fEntriesGluon[1]->Fill(nTracksPerc,jetPt);
0c9acc4c 1855 }
1856 if(softRefMcNoJets>=10&&softRefMcNoJets<15)
1857 {
1858 fNChTrRDMultSEOJMC[2]->Fill(nTracksPerc,jetPt);
1859 fSCMRDMultSEOJMC[2]->Fill(secondCentralR,jetPt);
17f4943e 1860 fJEtaMCMultSEOJ[2]->Fill(mcjet->Eta());
1861 fJetPtMCMultSEOJ[2]->Fill(mcjet->Pt());
1862 if(abs(flavor)==1||abs(flavor)==2||abs(flavor)==3||abs(flavor)==4||abs(flavor)==5) //if quark jet
1863 fEntriesQuark[2]->Fill(nTracksPerc,jetPt);
1864 if(abs(flavor)==21) //if gluon jet
1865 fEntriesGluon[2]->Fill(nTracksPerc,jetPt);
0c9acc4c 1866 }
1867 if(softRefMcNoJets>=15&&softRefMcNoJets<20)
1868 {
1869 fNChTrRDMultSEOJMC[3]->Fill(nTracksPerc,jetPt);
1870 fSCMRDMultSEOJMC[3]->Fill(secondCentralR,jetPt);
17f4943e 1871 fJEtaMCMultSEOJ[3]->Fill(mcjet->Eta());
1872 fJetPtMCMultSEOJ[3]->Fill(mcjet->Pt());
1873 if(abs(flavor)==1||abs(flavor)==2||abs(flavor)==3||abs(flavor)==4||abs(flavor)==5) //if quark jet
1874 fEntriesQuark[3]->Fill(nTracksPerc,jetPt);
1875 if(abs(flavor)==21) //if gluon jet
1876 fEntriesGluon[3]->Fill(nTracksPerc,jetPt);
0c9acc4c 1877 }
1878 if(softRefMcNoJets>=20&&softRefMcNoJets<30)
1879 {
1880 fNChTrRDMultSEOJMC[4]->Fill(nTracksPerc,jetPt);
1881 fSCMRDMultSEOJMC[4]->Fill(secondCentralR,jetPt);
17f4943e 1882 fJEtaMCMultSEOJ[4]->Fill(mcjet->Eta());
1883 fJetPtMCMultSEOJ[4]->Fill(mcjet->Pt());
1884 if(abs(flavor)==1||abs(flavor)==2||abs(flavor)==3||abs(flavor)==4||abs(flavor)==5) //if quark jet
1885 fEntriesQuark[4]->Fill(nTracksPerc,jetPt);
1886 if(abs(flavor)==21) //if gluon jet
1887 fEntriesGluon[4]->Fill(nTracksPerc,jetPt);
0c9acc4c 1888 }
1889 if(softRefMcNoJets>=30&&softRefMcNoJets<40)
1890 {
1891 fNChTrRDMultSEOJMC[5]->Fill(nTracksPerc,jetPt);
1892 fSCMRDMultSEOJMC[5]->Fill(secondCentralR,jetPt);
17f4943e 1893 fJEtaMCMultSEOJ[5]->Fill(mcjet->Eta());
1894 fJetPtMCMultSEOJ[5]->Fill(mcjet->Pt());
1895 if(abs(flavor)==1||abs(flavor)==2||abs(flavor)==3||abs(flavor)==4||abs(flavor)==5) //if quark jet
1896 fEntriesQuark[5]->Fill(nTracksPerc,jetPt);
1897 if(abs(flavor)==21) //if gluon jet
1898 fEntriesGluon[5]->Fill(nTracksPerc,jetPt);
0c9acc4c 1899 }
1900 if(softRefMcNoJets>=40&&softRefMcNoJets<50)
1901 {
1902 fNChTrRDMultSEOJMC[6]->Fill(nTracksPerc,jetPt);
1903 fSCMRDMultSEOJMC[6]->Fill(secondCentralR,jetPt);
17f4943e 1904 fJEtaMCMultSEOJ[6]->Fill(mcjet->Eta());
1905 fJetPtMCMultSEOJ[6]->Fill(mcjet->Pt());
1906 if(abs(flavor)==1||abs(flavor)==2||abs(flavor)==3||abs(flavor)==4||abs(flavor)==5) //if quark jet
1907 fEntriesQuark[6]->Fill(nTracksPerc,jetPt);
1908 if(abs(flavor)==21) //if gluon jet
1909 fEntriesGluon[6]->Fill(nTracksPerc,jetPt);
0c9acc4c 1910 }
1911 if(softRefMcNoJets>=50)
1912 {
1913 fNChTrRDMultSEOJMC[7]->Fill(nTracksPerc,jetPt);
1914 fSCMRDMultSEOJMC[7]->Fill(secondCentralR,jetPt);
17f4943e 1915 fJEtaMCMultSEOJ[7]->Fill(mcjet->Eta());
1916 fJetPtMCMultSEOJ[7]->Fill(mcjet->Pt());
1917 if(abs(flavor)==1||abs(flavor)==2||abs(flavor)==3||abs(flavor)==4||abs(flavor)==5) //if quark jet
1918 fEntriesQuark[7]->Fill(nTracksPerc,jetPt);
1919 if(abs(flavor)==21) //if gluon jet
1920 fEntriesGluon[7]->Fill(nTracksPerc,jetPt);
0c9acc4c 1921 }
1922 }
1923 //End results for inclusive jets,starts parton by parton
1924
1925 switch(abs(flavor))
1926 {
1927 case 1:
1928 fNChTr[0]->Fill(nTracksPerc,jetPt);
1929 fProcessPDG[0]->Fill(jetPt,evtype);
1930 fHistPtParton[0]->Fill(jetPt);
1931 fSCM[0]->Fill(secondCentralR,jetPt);
8dcbcbbb 1932 fMinTrackPtInNTXh[0]->Fill(fMinTrackPtInNTX,jetPt,1); // 0 for pp MC
0c9acc4c 1933 fMaxTrackPtInNTXh[0]->Fill(fMaxTrackPtInNTX,jetPt); // 0 for MC
1934 if(fIsPossibleToSubstBckg)
1935 {
1936 fNChTrCorrMCQuark->Fill(nTracksPercBckgSubst,pTbs);
1937 fSCMMCPerp->Fill(secondCentralR,jetPt);
1938 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.)) //!IsEqualRel(mctrack->Pt(), 0.0) // fCurrentJetMinPtNT90!=7000.
1939 fNChTrMCPerp->Fill(nTracksAboveThresholdPerp,jetPt);
1940 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.)) // !IsEqualRel(fCurrentJetMinPtNT90, 7000.) // fCurrentJetMinPtNT90Recalc!=7000.
1941 fNChTrCorrMCPerp->Fill(nTrUpThrPerpBckSubs,pTbs);
1942 }
1943 break;
1944 case 2:
1945 fNChTr[1]->Fill(nTracksPerc,jetPt);
1946 fProcessPDG[1]->Fill(jetPt,evtype);
1947 fHistPtParton[1]->Fill(jetPt);
1948 fSCM[1]->Fill(secondCentralR,jetPt);
8dcbcbbb 1949 fMinTrackPtInNTXh[0]->Fill(fMinTrackPtInNTX,jetPt,1); // 0 for pp MC
0c9acc4c 1950 fMaxTrackPtInNTXh[0]->Fill(fMaxTrackPtInNTX,jetPt); // 0 for MC
1951 if(fIsPossibleToSubstBckg)
1952 {
1953 fNChTrCorrMCQuark->Fill(nTracksPercBckgSubst,pTbs);
1954 fSCMMCPerp->Fill(secondCentralR,jetPt);
1955 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
1956 fNChTrMCPerp->Fill(nTracksAboveThresholdPerp,jetPt);
1957 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
1958 fNChTrCorrMCPerp->Fill(nTrUpThrPerpBckSubs,pTbs);
1959 }
1960 break;
1961 case 3:
1962 fNChTr[2]->Fill(nTracksPerc,jetPt);
1963 fProcessPDG[2]->Fill(jetPt,evtype);
1964 fHistPtParton[2]->Fill(jetPt);
1965 fSCM[2]->Fill(secondCentralR,jetPt);
8dcbcbbb 1966 fMinTrackPtInNTXh[0]->Fill(fMinTrackPtInNTX,jetPt,1); // 0 for pp MC
0c9acc4c 1967 fMaxTrackPtInNTXh[0]->Fill(fMaxTrackPtInNTX,jetPt); // 0 for MC
1968 if(fIsPossibleToSubstBckg)
1969 {
1970 fNChTrCorrMCQuark->Fill(nTracksPercBckgSubst,pTbs);
1971 fSCMMCPerp->Fill(secondCentralR,jetPt);
1972 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
1973 fNChTrMCPerp->Fill(nTracksAboveThresholdPerp,jetPt);
1974 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
1975 fNChTrCorrMCPerp->Fill(nTrUpThrPerpBckSubs,pTbs);
1976 }
1977 break;
1978 case 4:
1979 fNChTr[3]->Fill(nTracksPerc,jetPt);
1980 fProcessPDG[3]->Fill(jetPt,evtype);
1981 fHistPtParton[3]->Fill(jetPt);
1982 fSCM[3]->Fill(secondCentralR,jetPt);
8dcbcbbb 1983 fMinTrackPtInNTXh[0]->Fill(fMinTrackPtInNTX,jetPt,1); // 0 for pp MC
0c9acc4c 1984 fMaxTrackPtInNTXh[0]->Fill(fMaxTrackPtInNTX,jetPt); // 0 for MC
1985 if(fIsPossibleToSubstBckg)
1986 {
1987 fNChTrCorrMCQuark->Fill(nTracksPercBckgSubst,pTbs);
1988 fSCMMCPerp->Fill(secondCentralR,jetPt);
1989 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
1990 fNChTrMCPerp->Fill(nTracksAboveThresholdPerp,jetPt);
1991 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
1992 fNChTrCorrMCPerp->Fill(nTrUpThrPerpBckSubs,pTbs);
1993 }
1994 break;
1995 case 5:
1996 fNChTr[4]->Fill(nTracksPerc,jetPt);
1997 fProcessPDG[4]->Fill(jetPt,evtype);
1998 fHistPtParton[4]->Fill(jetPt);
1999 fSCM[4]->Fill(secondCentralR,jetPt);
8dcbcbbb 2000 fMinTrackPtInNTXh[0]->Fill(fMinTrackPtInNTX,jetPt,1); // 0 for pp MC
0c9acc4c 2001 fMaxTrackPtInNTXh[0]->Fill(fMaxTrackPtInNTX,jetPt); // 0 for MC
2002 if(fIsPossibleToSubstBckg)
2003 {
2004 fNChTrCorrMCQuark->Fill(nTracksPercBckgSubst,pTbs);
2005 fSCMMCPerp->Fill(secondCentralR,jetPt);
2006 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2007 fNChTrMCPerp->Fill(nTracksAboveThresholdPerp,jetPt);
2008 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
2009 fNChTrCorrMCPerp->Fill(nTrUpThrPerpBckSubs,pTbs);
2010 }
2011 break;
2012 case 21:
2013 fNChTr[5]->Fill(nTracksPerc,jetPt);
2014 fProcessPDG[5]->Fill(jetPt,evtype);
2015 fHistPtParton[5]->Fill(jetPt);
2016 fSCM[5]->Fill(secondCentralR,jetPt);
8dcbcbbb 2017 fMinTrackPtInNTXh[0]->Fill(fMinTrackPtInNTX,jetPt,1); // 0 for pp MC
0c9acc4c 2018 fMaxTrackPtInNTXh[0]->Fill(fMaxTrackPtInNTX,jetPt); // 0 for MC
2019 if(fIsPossibleToSubstBckg)
2020 {
2021 fNChTrCorrMCGluon->Fill(nTracksPercBckgSubst,pTbs);
2022 fSCMMCPerp->Fill(secondCentralR,jetPt);
2023 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2024 fNChTrMCPerp->Fill(nTracksAboveThresholdPerp,jetPt);
2025 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
2026 fNChTrCorrMCPerp->Fill(nTrUpThrPerpBckSubs,pTbs);
2027 }
2028 break;
2029 default:
2030 break;
2031 }
2032 AliDebug(4,Form("Sabor del jet numero:%d es: %d y se necesitaron %d tracks \n",indxmc,flavor,nTracksPerc));
2033 imcj++;
2034 } // MC jets for cycle
2035 nGenJets=imcj;
2036 for(Int_t u=0 ; u<mcJetCounter ;u++)
2037 {
2038 if(u<7)
2039 fJetsMultPtMC->Fill(jetPts[u],mcJetCounter);
2040 }
2041 // if(fEnablePrints)
2042 // {
2043 // if(mcJetCounter>=3)
2044 // printf("%i Jets inside acceptance at event number:%i \n",mcJetCounter,fEvtCount-1);
2045 // }
2046 fNAccJetsMC->Fill(mcJetCounter,mcJetCounter);
2047 } // end if MC info in AOD
2048
2049 if(!fUseOnlyMC)
2050 {
2051 // Primero que todo, debe de ir la seleccion de eventos reconstruidos:
2052 // 1. Que tenga un vertice reconstruido dentro de 10 cm.
2053 // Vertex info for reconstructed events
2054 AliAODVertex *pvx = fAOD->GetPrimaryVertex();
2055 if(!pvx)
2056 {
2057 AliError("No primary vertex!");
2058 return;
2059 }
2060 if(TMath::Abs(pvx->GetZ())>10.) // if the event vertex is larger than 10 cm, reject
2061 return;
2062 fZVertex->Fill(pvx->GetZ(),pvx->GetZ()); // vertex, provide number of accepted events as entries for reco jets
2063
2064 ///////////////////////////////////////
2065 // SECONDARY RECO BRANCH STUFF //
2066 // Get the secondary branch with the reconstructed jets
2067 if(fBranchSecRec!="")
2068 {
2069 AliDebug(4,Form("fBranchSecRec was not default \n"));
2070 TClonesArray *aodSecRecJets = dynamic_cast<TClonesArray*>(fAOD->FindListObject(fBranchSecRec.Data()));
2071 if(!aodSecRecJets)
2072 {
2073 AliError(Form("%s:%d no reconstructed Secondary Jet array with name %s in AOD",(char*)__FILE__,__LINE__,fBranchSecRec.Data()));
2074 return; //stop the analysis
2075 }
2076 AliDebug(4,Form("There are %d reconstructed jets from the secondary branch in this event \n", aodSecRecJets->GetEntries()));
2077 Int_t recojetsSEC = aodSecRecJets->GetEntries();
2078 fNJetsRDSeco->Fill(recojetsSEC,recojetsSEC); // number of jets in the secondary branch
2079
2080 HasOverlapedCones(aodSecRecJets); // Procedure for tagging usable jets
2081 // Up 16 jets are flagged
2082
2083 AliDebug(4,"Antes de realizar el loop jets reconstruidos del segundo branch \n");
2084 Int_t secondjetacccounter = 0;
2085 for (Int_t IDXS = 0; IDXS < recojetsSEC; IDXS++)
2086 {
2087 AliDebug(4,Form("Number of current jet:%i \n",IDXS));
2088 AliAODJet *rjetsec = dynamic_cast<AliAODJet*>(aodSecRecJets->At(IDXS));
2089 if (!rjetsec)
2090 {
2091 AliDebug(2,Form("ERROR: Could not receive jet %d from the second branch\n", IDXS));
2092 continue;
2093 }
2094
2095 ///////////////////////////////////////////////////////////////////////////////
2096 ///// Part for Chritians plot of inclusive and leading jets comp at 2.76 TeV //
2097 if(!IsInsideAcceptance(rjetsec)) // old condition
2098 continue;
2099 if(IDXS==0) // leading jet
2100 fSecRecJetPtLeading->Fill(rjetsec->Pt());
2101 fSecRecJetPtInclusive->Fill(rjetsec->Pt()); // all
2102 ///// End of Christians Plot reco 2nd branch
2103 ///////////////////////////////////////////////////////////////////////////////
2104
2105 if(IDXS>15)
2106 continue;
2107
2108 if(!fJetFlags[IDXS]) // If the jet is flaged kFALSE, not usable
2109 continue;
2110
2111 fJetPtSec->Fill(rjetsec->Pt());
2112 fJetEtaSec->Fill(rjetsec->Eta(),rjetsec->Eta());
2113 fJetPhiSec->Fill(rjetsec->Phi(),rjetsec->Phi());
2114 secondjetacccounter++;
2115 }
2116 fNAccJetsRDSeco->Fill(secondjetacccounter,secondjetacccounter);
2117 }
2118 // END OF SECONDARY BRANCH STUFF //
2119 ///////////////////////////////////////
2120
2121 // Get the branch with the reconstructed jets
2122 TClonesArray *aodRecJets = dynamic_cast<TClonesArray*>(fAOD->FindListObject(fBranchRec.Data()));
2123 if(!aodRecJets)
2124 {
2125 AliError(Form("%s:%d no reconstructed Jet array with name %s in AOD",(char*)__FILE__,__LINE__,fBranchRec.Data()));
2126 return;
2127 }
2128
2129 AliDebug(4,Form("There are %d reconstructed jets in this event\n", aodRecJets->GetEntries()));
2130 Int_t recojets = aodRecJets->GetEntries();
2131 fNJetsRD->Fill(recojets,recojets); // numero de jets directamente del branch
2132
2133 HasOverlapedCones(aodRecJets); // Procedure for tagging usable jets
2134 // Up 16 jets are flagged
2135
2136 AliDebug(4,"Antes de realizar el loop sobre AOD tracks \n");
2137 // Loop over AOD tracks
2138 Int_t tracksAOD = fAOD->GetNumberOfTracks();
2139 AliDebug(4,Form("Numero de tracks en el AOD:%d \n",tracksAOD));
2140 Double_t aodtracketa = 0.0;
2141 perpendicularPt = 0.0;
2142 px=0.0;
2143 py=0.0;
2144 pz=0.0;
2145 en=0.0;
2146 pTbs=0.0;
2147 etabs=0.0;
2148 phibs=0.0;
2149 fBckgSbsJet[0]=0.0;
2150 fBckgSbsJet[1]=0.0;
2151 fBckgSbsJet[2]=0.0;
2152 Int_t refNJMult = 0;
2153 Int_t myTotalMultRef = 0;
2154 Int_t myTotalSoftMultRef = 0;
2155 for(Int_t aodT = 0; aodT < tracksAOD; aodT++ )
2156 {
f15c1f69 2157 AliAODTrack *aodtrack = dynamic_cast<AliAODTrack*>(fAOD->GetTrack(aodT));
2158 if(!aodtrack) AliFatal("Not a standard AOD");
0c9acc4c 2159 if(!aodtrack) continue;
2160 aodtracketa = TMath::Abs(aodtrack->Eta());
2161 if(aodtracketa>0.9) continue;
2162 if(!aodtrack->TestFilterBit(fFilterBit)) continue; //track filter selection
0c9acc4c 2163 fEtaAOD->Fill(aodtrack->Eta(),aodtrack->Eta());
2164 fPhiAOD->Fill(aodtrack->Phi(),aodtrack->Phi());
2165 fPtAOD->Fill(aodtrack->Pt(),aodtrack->Pt());
2166 if(fJetEvent) // if has an accepted jet, calculate the perpendicular cone
2167 {
2168 if(HasPerpendicularCone()) // If there is a perpendicular cone available
2169 {
2170 if(aodtrack->Pt()>fMinpTVal)
2171 {
2172 if(GetDeltaR(fEtaPerpCoord,fPhiPerpCoord,aodtrack->Eta(),aodtrack->Phi())<fJetRadius)
2173 perpendicularPt = perpendicularPt + aodtrack->Pt();
2174 }
2175 }
2176 } // end if jet event
2177 //Total TPC multiplicity of primaries
17f4943e 2178 if(aodtrack->Pt()>fMinPtInGlobMult) // Min pT used in multiplicity estimation
2179 {
2180 myTotalMultRef++;
2181 if(aodtrack->Pt()<fMinpTValUE) continue; // pT cut fMinpTValUE
2182 if(aodtrack->Pt()>fMaxpTValUE) continue; // pT cut fMaxpTValUE
2183 myTotalSoftMultRef++;
2184 if(!IsTrackInsideExcludedArea(aodtrack->Eta(), aodtrack->Phi(), aodRecJets))
2185 refNJMult++;
2186 }
0c9acc4c 2187 } // end track loop over the event...
2188
2189 fRefMultWOJet->Fill(refMultiplicity,refNJMult);
2190 fMultWOJetVZero->Fill(refNJMult,multFullV0);
2191 Double_t v0CorrMult = multFullV0 - GetV0ExcludedMultiplicity(aodRecJets);
2192 fRefMultFullV0->Fill(refMultiplicity,multFullV0);
2193 fRefMultV0Corr->Fill(refMultiplicity,v0CorrMult);
2194 fFullV0V0Corr->Fill(multFullV0,v0CorrMult);
2195 fRefAODTrackCount->Fill(refMultiplicity,myTotalMultRef);
2196 fTrackCountWOJet->Fill(myTotalMultRef,refNJMult);
2197
2198 if(recojets==1) // correlation for only monojet events
2199 {
2200 fRefMultFullV0UJ->Fill(refMultiplicity,multFullV0);
2201 fRefMultV0CorrUJ->Fill(refMultiplicity,v0CorrMult);
2202 fFullV0V0CorrUJ->Fill(multFullV0,v0CorrMult);
2203 fMultWOJetVZeroUJ->Fill(refNJMult,multFullV0);
2204 fRefMultWOJetUJ->Fill(refMultiplicity,refNJMult);
2205 fRefAODTrackCountUJ->Fill(refMultiplicity,myTotalMultRef);
2206 fTrackCountWOJetUJ->Fill(myTotalMultRef,refNJMult);
2207 }
2208
2209 if(fJetEvent) // if has an accepted jet, calculate the perpendicular cone
2210 {
2211 if(HasPerpendicularCone()) // If there is a perpendicular cone available
2212 {
2213 px = perpendicularPt*TMath::Cos(fPhiPerpCoord);
2214 py = perpendicularPt*TMath::Sin(fPhiPerpCoord);
2215 pz = perpendicularPt/TMath::Tan(2.0*TMath::ATan(TMath::Exp(-fEtaPerpCoord)));
2216 en = TMath::Sqrt(px*px + py*py + pz*pz);
2217 fPerpCone->SetPxPyPzE(px, py, pz, en);
2218 }
2219 }
2220
2221 // Loop to fill a pT spectrum of the reco jets
2222 Int_t irecj=0; // index for reconstructed jets to correlate
2223 Int_t nrectracks[6]={0};
2224 Double_t ptrecjet[6]={0};
2225 Double_t scmr[6]={0};
2226 Double_t aodtrackxi=0;
2227 Int_t ntxreco;
2228 Int_t nTRecAboveThresholdPerp=0;
2229 Int_t ntxrecoRecalc;
2230 Int_t nTRecAboveThresholdPerpRecalc=0;
2231
2232 for(Int_t i=0; i<6; i++) // Reset per event
2233 {
2234 fHistContainerR4[i]->Reset();
2235 fHistContainerR3[i]->Reset();
2236 fHistContainerR2[i]->Reset();
2237 }
2238
2239 Double_t jetPtsR[7]={0}; // to store the pt of the jets
2240 Int_t rJetCounter=0; // counter of accepted reco jets
2241 fIsPossibleToSubstBckg = kTRUE; // Initialize before the loop
2242 if(fJetEvent) // si tiene jets validos
2243 {
2244 if(!HasPerpendicularCone()) // pero no encontro un cono perpendicular libre
2245 fIsPossibleToSubstBckg = kFALSE; // if not perpendicular cone, set to kFALSE, so no perpendicular calculations available
2246 }
2247
2248 AliDebug(4,"Antes de realizar el loop jets reconstruidos \n");
2249 for (Int_t indxrec = 0; indxrec < recojets; indxrec++)
2250 {
2251 AliDebug(4,Form("Number of current jet:%i \n",indxrec));
2252 ntxreco = 0;
2253 ntxrecoRecalc = 0;
2254 fMinTrackPtInNTX=200.0; //Initialize for each jet, overflown
2255 fMaxTrackPtInNTX=200.0; //Initialize for each jet, overflown
2256 fMinTrackPtInNTXR=200.0; //Initialize for each jet, overflown
2257 fMaxTrackPtInNTXR=200.0; //Initialize for each jet, overflown
2258 deltaPhiPt = 0.0;
2259 deltaEtaPt = 0.0;
2260 deltaPhiSqPt = 0.0;
2261 deltaEtaSqPt = 0.0;
2262 totalTrackPt = 0.0;
2263 firstMomDeltPhi = 0.0;
2264 firstMomDeltEta = 0.0;
2265 secondMomDeltPhi = 0.0;
2266 secondMomDeltEta = 0.0;
2267 secondCentralPhi = 0.0;
2268 secondCentralEta = 0.0;
2269 secondCentralR = 0.0;
17f4943e 2270 fTotTracksInCone=0; // Underflown at initialization per jet
2271
0c9acc4c 2272 AliAODJet *rjet = dynamic_cast<AliAODJet*>(aodRecJets->At(indxrec));
2273 if (!rjet)
2274 {
2275 AliDebug(2,Form("ERROR: Could not receive jet %d\n", indxrec));
2276 continue;
2277 }
2278 fJetEtaAll->Fill(rjet->Eta());// all jets
2279
2280 ///////////////////////////////////////////////////////////////////////////////
2281 ///// Part for Chritians plot of inclusive and leading jets comp at 2.76 TeV //
2282 if(!IsInsideAcceptance(rjet)) // old condition
2283 continue;
2284 if(indxrec==0) // leading jet
2285 fRecJetPtLeading->Fill(rjet->Pt());
2286 fRecJetPtInclusive->Fill(rjet->Pt()); // all
2287 fJetEtaOnlyTPCcut->Fill(rjet->Eta());// only eta acceptance cut for TPC
2288 ///// End of Christians Plot reco
2289 ///////////////////////////////////////////////////////////////////////////////
2290
2291 if(indxrec>15)
2292 continue;
2293
2294 if(!fJetFlags[indxrec]) // If the jet is flaged kFALSE, not usable
2295 continue;
2296
2297 AliDebug(4,Form("Jet #%i is in the acceptance \n",indxrec));
2298 if(rJetCounter<7)
2299 jetPtsR[rJetCounter]=rjet->Pt();
2300 rJetCounter++;
2301 fJetPt->Fill(rjet->Pt());
2302 fJetEta->Fill(rjet->Eta(),rjet->Eta());
2303 fJetPhi->Fill(rjet->Phi(),rjet->Phi());
2304
2305 if(rjet->Pt()>10.)
2306 fJetEtaJetPt[0]->Fill(rjet->Eta());
2307 if(rjet->Pt()>30.)
2308 fJetEtaJetPt[1]->Fill(rjet->Eta());
2309 if(rjet->Pt()>50.)
2310 fJetEtaJetPt[2]->Fill(rjet->Eta());
2311
2312 // Reco RefTracks check
2313 Bool_t rTrkFlagRec = kFALSE;
2314 Int_t trkinrecjet = rjet->GetRefTracks()->GetEntriesFast();
2315 if(trkinrecjet!=0&&!fForceNotTR)
2316 rTrkFlagRec = kTRUE;
2317 AliDebug(4,Form("Number of tracks in RefTracks reco jet:%i \n",trkinrecjet));
2318 if(rTrkFlagRec)
2319 {
2320 // Check the properties of the tracks in this jet with track refs
2321 AliDebug(4,Form("Checking composition in Reco jets with track refs"));
2322 for(Int_t aodT = 0; aodT <trkinrecjet; aodT++ )
2323 {
2324 aodtrackxi=0;
2325 AliAODTrack *aodtrack = dynamic_cast<AliAODTrack*>(rjet->GetRefTracks()->At(aodT));
2326 if(!aodtrack)
2327 {
2328 AliError("Error, no AOD Track!");
2329 continue;
2330 }
2331 if(!aodtrack->TestFilterBit(fFilterBit))
2332 {
2333 // printf("Rejecting track from track refs due to wrong filterbit! \n");
2334 continue; //track filter selection
2335 }
0c9acc4c 2336 deltaPhiPt += DeltaPhiTrack(rjet, aodtrack)*aodtrack->Pt();
2337 deltaEtaPt += DeltaEtaTrack(rjet, aodtrack)*aodtrack->Pt();
2338 deltaPhiSqPt += DeltaPhiSqTrack(rjet, aodtrack)*aodtrack->Pt();
2339 deltaEtaSqPt += DeltaEtaSqTrack(rjet, aodtrack)*aodtrack->Pt();
2340 totalTrackPt += aodtrack->Pt();
17f4943e 2341 fTotTracksInCone++; // Counting tracks
0c9acc4c 2342 if(!IsEqualRel(aodtrack->Pt(), 0.0)) //!IsEqualRel(totalTrackPtPerp, 0.0) //aodtrack->Pt()!=0
2343 aodtrackxi= log(rjet->Pt()/aodtrack->Pt());
2344 if(irecj<maxJetNum)
2345 {
2346 fHistContainerR4[irecj]->Fill(aodtrackxi,rjet->Pt());
2347 if(!IsTrackInsideThisJet(aodtrack, rjet, 0.3)) continue;
2348 fHistContainerR3[irecj]->Fill(aodtrackxi,rjet->Pt());
2349 if(!IsTrackInsideThisJet(aodtrack, rjet, 0.2)) continue;
2350 fHistContainerR2[irecj]->Fill(aodtrackxi,rjet->Pt());
2351 }
2352 } //end loop over track references
2353 if(!IsEqualRel(totalTrackPt, 0.0)) //!IsEqualRel(totalTrackPt, 0.0) // totalTrackPt!=0.0
2354 {
2355 firstMomDeltPhi = deltaPhiPt/totalTrackPt;
2356 firstMomDeltEta = deltaEtaPt/totalTrackPt;
2357 secondMomDeltPhi = deltaPhiSqPt/totalTrackPt;
2358 secondMomDeltEta = deltaEtaSqPt/totalTrackPt;
2359 secondCentralPhi = secondMomDeltPhi - firstMomDeltPhi*firstMomDeltPhi;
2360 secondCentralEta = secondMomDeltEta - firstMomDeltEta*firstMomDeltEta;
2361 secondCentralR = secondCentralPhi + secondCentralEta;
2362 } // end if totalTrackPt!=0.0
2363 if(IsEqualRel(totalTrackPt, 0.0)) //!IsEqualRel(totalTrackPt, 0.0) // totalTrackPt==0.0
2364 secondCentralR = 10.0; //overflow value
2365 } // end if there are track references
2366
2367 if(!rTrkFlagRec)
2368 {
2369 // Check properties of the tracks in this jet without track refs
2370 AliDebug(4,Form("Checking composition in Reco jets without track refs"));
2371 for(Int_t aodT = 0; aodT < tracksAOD; aodT++ )
2372 {
f15c1f69 2373 AliAODTrack *aodtrack = dynamic_cast<AliAODTrack*>(fAOD->GetTrack(aodT));
2374 if(!aodtrack) AliFatal("Not a standard AOD");
0c9acc4c 2375 if(!aodtrack) continue;
2376 if(!IsTrackInsideThisJet(aodtrack, rjet, jfr)) continue;
2377 if(!aodtrack->TestFilterBit(fFilterBit)) continue; //track filter selection
0c9acc4c 2378 if(aodtrack->Pt()<fMinpTVal) continue; //DATA: PT CUT
2379 deltaPhiPt += DeltaPhiTrack(rjet, aodtrack)*aodtrack->Pt();
2380 deltaEtaPt += DeltaEtaTrack(rjet, aodtrack)*aodtrack->Pt();
2381 deltaPhiSqPt += DeltaPhiSqTrack(rjet, aodtrack)*aodtrack->Pt();
2382 deltaEtaSqPt += DeltaEtaSqTrack(rjet, aodtrack)*aodtrack->Pt();
2383 totalTrackPt += aodtrack->Pt();
17f4943e 2384 fTotTracksInCone++; // Counting tracks
0c9acc4c 2385 if(!IsEqualRel(aodtrack->Pt(), 0.0)) //!IsEqualRel(totalTrackPt, 0.0) //aodtrack->Pt()!=0
2386 aodtrackxi= log(rjet->Pt()/aodtrack->Pt());
2387 if(irecj<maxJetNum)
2388 {
2389 fHistContainerR4[irecj]->Fill(aodtrackxi,rjet->Pt());
2390 if(!IsTrackInsideThisJet(aodtrack, rjet, 0.3)) continue;
2391 fHistContainerR3[irecj]->Fill(aodtrackxi,rjet->Pt());
2392 if(!IsTrackInsideThisJet(aodtrack, rjet, 0.2)) continue;
2393 fHistContainerR2[irecj]->Fill(aodtrackxi,rjet->Pt());
2394 }
2395 } // end loop over tracks
2396 if(!IsEqualRel(totalTrackPt, 0.0)) //!IsEqualRel(totalTrackPt, 0.0) //totalTrackPt!=0.0
2397 {
2398 firstMomDeltPhi = deltaPhiPt/totalTrackPt;
2399 firstMomDeltEta = deltaEtaPt/totalTrackPt;
2400 secondMomDeltPhi = deltaPhiSqPt/totalTrackPt;
2401 secondMomDeltEta = deltaEtaSqPt/totalTrackPt;
2402 secondCentralPhi = secondMomDeltPhi - firstMomDeltPhi*firstMomDeltPhi;
2403 secondCentralEta = secondMomDeltEta - firstMomDeltEta*firstMomDeltEta;
2404 secondCentralR = secondCentralPhi + secondCentralEta;
2405 } // end if totalTrackPt!=0.0
2406 if(IsEqualRel(totalTrackPt, 0.0)) //!IsEqualRel(totalTrackPt, 0.0) // totalTrackPt==0.0
2407 secondCentralR = 10.0; //overflow value
2408 } // end of no track references
2409 //Esto es lo anterior, toma al jet como es, y calcula NT90
2410 ntxreco=GetNumberOfChargedTracks(ntx,rjet, tracksAOD, fAOD, jfr); // this call fixes the minimum pT track
2411 //Y aqui calcula cuantos tracks se necesitan arriba del threshold establecido en la linea anterior
2412 //esto debe ser para cada jet. Lo unico que se calcula una sola vez es el cono perpendicular
2413 if(fIsPossibleToSubstBckg&&!IsEqualRel(fCurrentJetMinPtNT90, 7000.)) //and only if the method worked
2414 nTRecAboveThresholdPerp = GetNRecChargedTracksAboveThreshold(fPerpCone,tracksAOD, fAOD,jfr); //here one changes NTX
2415
2416 // correct the jet pT
2417 if(fIsPossibleToSubstBckg) // If there is a perpendicular cone available, substract backg and fill the new jet pT
2418 {
2419 pTbs= rjet->Pt()-fPerpCone->Pt();
2420 etabs= rjet->Eta();
2421 phibs= rjet->Phi();
2422 fBckgSbsJet[0]=pTbs; //pT
2423 fBckgSbsJet[1]=etabs; //eta
2424 fBckgSbsJet[2]=phibs; //phi
2425 // Now re-calculate nt90 for the energy corrected jet
2426 ntxrecoRecalc = GetRecalcNTXRec(ntx,rjet, tracksAOD, fAOD, jfr); //This call saves the new min pT
2427 // Now re-calculate the perpendicular cone NT90 background
2428 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.)) //calculating for the current jet, if the previous method worked
2429 nTRecAboveThresholdPerpRecalc = GetRecalcNRecChTrUpThr(fPerpCone,tracksAOD, fAOD,jfr);
2430 }
2431
2432 // SCM perpendicular cone
2433 if(fIsPossibleToSubstBckg)
2434 {
2435 // To make sure, re-initialize
2436 deltaPhiPtPerp = 0.0;
2437 deltaEtaPtPerp = 0.0;
2438 deltaPhiSqPtPerp = 0.0;
2439 deltaEtaSqPtPerp = 0.0;
2440 totalTrackPtPerp = 0.0;
2441 firstMomDeltPhiPerp = 0.0;
2442 firstMomDeltEtaPerp = 0.0;
2443 secondMomDeltPhiPerp = 0.0;
2444 secondMomDeltEtaPerp = 0.0;
2445 secondCentralPhiPerp = 0.0;
2446 secondCentralEtaPerp = 0.0;
2447 secondCentralRPerp = 0.0;
2448 AliDebug(4,Form("Checking SCM of perpendicular cone in Reco jets"));
2449 for(Int_t aodTperp = 0; aodTperp < tracksAOD; aodTperp++ )
2450 { //fPerpCone
f15c1f69 2451 AliAODTrack *aodtrackperprec = dynamic_cast<AliAODTrack*>(fAOD->GetTrack(aodTperp));
2452 if(!aodtrackperprec) AliFatal("Not a standard AOD");
0c9acc4c 2453 if(!aodtrackperprec) continue;
2454 if(!IsTrackInsideThisJet(aodtrackperprec, fPerpCone, jfr)) continue;
2455 if(!aodtrackperprec->TestFilterBit(fFilterBit)) continue; //track filter selection
0c9acc4c 2456 if(aodtrackperprec->Pt()<fMinpTVal) continue; //DATA: PT CUT
2457 deltaPhiPtPerp += DeltaPhiTrack(fPerpCone, aodtrackperprec)*aodtrackperprec->Pt();
2458 deltaEtaPtPerp += DeltaEtaTrack(fPerpCone, aodtrackperprec)*aodtrackperprec->Pt();
2459 deltaPhiSqPtPerp += DeltaPhiSqTrack(fPerpCone, aodtrackperprec)*aodtrackperprec->Pt();
2460 deltaEtaSqPtPerp += DeltaEtaSqTrack(fPerpCone, aodtrackperprec)*aodtrackperprec->Pt();
2461 totalTrackPtPerp += aodtrackperprec->Pt();
2462 } // end loop over tracks
2463 if(!IsEqualRel(totalTrackPtPerp, 0.0)) //!IsEqualRel(totalTrackPt, 0.0) // totalTrackPtPerp!=0.0
2464 {
2465 firstMomDeltPhiPerp = deltaPhiPtPerp/totalTrackPtPerp;
2466 firstMomDeltEtaPerp = deltaEtaPtPerp/totalTrackPtPerp;
2467 secondMomDeltPhiPerp = deltaPhiSqPtPerp/totalTrackPtPerp;
2468 secondMomDeltEtaPerp = deltaEtaSqPtPerp/totalTrackPtPerp;
2469 secondCentralPhiPerp = secondMomDeltPhiPerp - firstMomDeltPhiPerp*firstMomDeltPhiPerp;
2470 secondCentralEtaPerp = secondMomDeltEtaPerp - firstMomDeltEtaPerp*firstMomDeltEtaPerp;
2471 secondCentralRPerp = secondCentralPhiPerp + secondCentralEtaPerp;
2472 } // end if totalTrackPt!=0.0
2473 if(IsEqualRel(totalTrackPtPerp, 0.0)) //!IsEqualRel(totalTrackPt, 0.0) // totalTrackPtPerp==0.0
2474 secondCentralRPerp = 10.0; //overflow
2475 }
2476
2477 ///// end of adding the SCM for the perpendicular cone
2478
2479 if(irecj<maxJetNum)
2480 {
2481 recJets[irecj]= *rjet;
2482 nrectracks[irecj] = ntxreco;
2483 ptrecjet[irecj] = rjet->Pt();
2484 scmr[irecj] = secondCentralR;
2485 AliDebug(4,Form("Para el jet reco num: %d se necesitaron %d tracks \n",irecj,nrectracks[irecj]));
2486 }
2487 AliDebug(4,"Before filling the histograms for this jet \n");
2488 fNChTrRD->Fill(ntxreco,rjet->Pt());
2489 fSCMRD->Fill(secondCentralR,rjet->Pt());
2490 fProfNChTrRD->Fill(rjet->Pt(),ntxreco);
2491
2492 fNTXV0MultPt->Fill(ntxreco,v0CorrMult,rjet->Pt());
2493 fNTXCBMultPt->Fill(ntxreco,refNJMult,rjet->Pt());
2494
2495 //refNJMult
2496 // reference multiplicity stuff in pp, also filled in PbPb, but does not matter.
2497 // set to: V0 corrected multiplicity: v0CorrMult
2498 if(v0CorrMult<25)
2499 {
2500 fNChTrRDMult[0]->Fill(ntxreco,rjet->Pt());
2501 fSCMRDMult[0]->Fill(secondCentralR,rjet->Pt());
2502 fTotalJetCharge[0]->Fill(fCurrentJetCharge);
2503 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2504 {
2505 fNChTrRDMultOJ[0]->Fill(ntxreco,rjet->Pt());
2506 fSCMRDMultOJ[0]->Fill(secondCentralR,rjet->Pt());
17f4943e 2507 fJEtaRDMultOJ[0]->Fill(rjet->Eta());
2508 fJetPtRDMultOJ[0]->Fill(rjet->Pt());
0c9acc4c 2509 }
2510 }
2511 if(v0CorrMult>=25&&v0CorrMult<50)
2512 {
2513 fNChTrRDMult[1]->Fill(ntxreco,rjet->Pt());
2514 fSCMRDMult[1]->Fill(secondCentralR,rjet->Pt());
2515 fTotalJetCharge[1]->Fill(fCurrentJetCharge);
2516 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2517 {
2518 fNChTrRDMultOJ[1]->Fill(ntxreco,rjet->Pt());
2519 fSCMRDMultOJ[1]->Fill(secondCentralR,rjet->Pt());
17f4943e 2520 fJEtaRDMultOJ[1]->Fill(rjet->Eta());
2521 fJetPtRDMultOJ[1]->Fill(rjet->Pt());
0c9acc4c 2522 }
2523 }
2524 if(v0CorrMult>=50&&v0CorrMult<90)
2525 {
2526 fNChTrRDMult[2]->Fill(ntxreco,rjet->Pt());
2527 fSCMRDMult[2]->Fill(secondCentralR,rjet->Pt());
2528 fTotalJetCharge[2]->Fill(fCurrentJetCharge);
2529 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2530 {
2531 fNChTrRDMultOJ[2]->Fill(ntxreco,rjet->Pt());
2532 fSCMRDMultOJ[2]->Fill(secondCentralR,rjet->Pt());
17f4943e 2533 fJEtaRDMultOJ[2]->Fill(rjet->Eta());
2534 fJetPtRDMultOJ[2]->Fill(rjet->Pt());
0c9acc4c 2535 }
2536 }
2537 if(v0CorrMult>=90&&v0CorrMult<120)
2538 {
2539 fNChTrRDMult[3]->Fill(ntxreco,rjet->Pt());
2540 fSCMRDMult[3]->Fill(secondCentralR,rjet->Pt());
2541 fTotalJetCharge[3]->Fill(fCurrentJetCharge);
2542 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2543 {
2544 fNChTrRDMultOJ[3]->Fill(ntxreco,rjet->Pt());
2545 fSCMRDMultOJ[3]->Fill(secondCentralR,rjet->Pt());
17f4943e 2546 fJEtaRDMultOJ[3]->Fill(rjet->Eta());
2547 fJetPtRDMultOJ[3]->Fill(rjet->Pt());
0c9acc4c 2548 }
2549 }
2550 if(v0CorrMult>=120&&v0CorrMult<150)
2551 {
2552 fNChTrRDMult[4]->Fill(ntxreco,rjet->Pt());
2553 fSCMRDMult[4]->Fill(secondCentralR,rjet->Pt());
2554 fTotalJetCharge[4]->Fill(fCurrentJetCharge);
2555 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2556 {
2557 fNChTrRDMultOJ[4]->Fill(ntxreco,rjet->Pt());
2558 fSCMRDMultOJ[4]->Fill(secondCentralR,rjet->Pt());
17f4943e 2559 fJEtaRDMultOJ[4]->Fill(rjet->Eta());
2560 fJetPtRDMultOJ[4]->Fill(rjet->Pt());
0c9acc4c 2561 }
2562 }
2563 if(v0CorrMult>=150&&v0CorrMult<200)
2564 {
2565 fNChTrRDMult[5]->Fill(ntxreco,rjet->Pt());
2566 fSCMRDMult[5]->Fill(secondCentralR,rjet->Pt());
2567 fTotalJetCharge[5]->Fill(fCurrentJetCharge);
2568 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2569 {
2570 fNChTrRDMultOJ[5]->Fill(ntxreco,rjet->Pt());
2571 fSCMRDMultOJ[5]->Fill(secondCentralR,rjet->Pt());
17f4943e 2572 fJEtaRDMultOJ[5]->Fill(rjet->Eta());
2573 fJetPtRDMultOJ[5]->Fill(rjet->Pt());
0c9acc4c 2574 }
2575 }
2576 if(v0CorrMult>=200&&v0CorrMult<300)
2577 {
2578 fNChTrRDMult[6]->Fill(ntxreco,rjet->Pt());
2579 fSCMRDMult[6]->Fill(secondCentralR,rjet->Pt());
2580 fTotalJetCharge[6]->Fill(fCurrentJetCharge);
2581 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2582 {
2583 fNChTrRDMultOJ[6]->Fill(ntxreco,rjet->Pt());
2584 fSCMRDMultOJ[6]->Fill(secondCentralR,rjet->Pt());
17f4943e 2585 fJEtaRDMultOJ[6]->Fill(rjet->Eta());
2586 fJetPtRDMultOJ[6]->Fill(rjet->Pt());
0c9acc4c 2587 }
2588 }
2589 if(v0CorrMult>=300)
2590 {
2591 fNChTrRDMult[7]->Fill(ntxreco,rjet->Pt());
2592 fSCMRDMult[7]->Fill(secondCentralR,rjet->Pt());
2593 fTotalJetCharge[7]->Fill(fCurrentJetCharge);
2594 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2595 {
2596 fNChTrRDMultOJ[7]->Fill(ntxreco,rjet->Pt());
2597 fSCMRDMultOJ[7]->Fill(secondCentralR,rjet->Pt());
17f4943e 2598 fJEtaRDMultOJ[7]->Fill(rjet->Eta());
2599 fJetPtRDMultOJ[7]->Fill(rjet->Pt());
0c9acc4c 2600 }
2601 }
2602
2603 // 2nd. Reference: set to: TPC tracks minus jet, minus dijet area
2604 if(refNJMult<5) //&&refNJMult>1
2605 {
2606 fNChTrRDMultSE[0]->Fill(ntxreco,rjet->Pt());
2607 fSCMRDMultSE[0]->Fill(secondCentralR,rjet->Pt());
2608 fTotalJetChargeSE[0]->Fill(fCurrentJetCharge);
2609 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2610 {
2611 fNChTrRDMultSEOJ[0]->Fill(ntxreco,rjet->Pt());
2612 fSCMRDMultSEOJ[0]->Fill(secondCentralR,rjet->Pt());
17f4943e 2613 fJEtaRDMultSEOJ[0]->Fill(rjet->Eta());
2614 fJetPtRDMultSEOJ[0]->Fill(rjet->Pt());
0c9acc4c 2615 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2616 fNChTrRecPerpMultSEOJ[0]->Fill(nTRecAboveThresholdPerp,rjet->Pt());
2617 if(fIsPossibleToSubstBckg) // if it was possible to calculate a perpendicular cone
2618 {
2619 fNChTrRecECorrPPMult->Fill(ntxrecoRecalc,pTbs,1); //filling mult bin
2620 fNChTrRecPerpECorrPPMult->Fill(nTRecAboveThresholdPerpRecalc,pTbs,1); //filling mult bin
2621 }
2622 }
2623 }
2624 if(refNJMult>=5&&refNJMult<10)
2625 {
2626 fNChTrRDMultSE[1]->Fill(ntxreco,rjet->Pt());
2627 fSCMRDMultSE[1]->Fill(secondCentralR,rjet->Pt());
2628 fTotalJetChargeSE[1]->Fill(fCurrentJetCharge);
2629 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2630 {
2631 fNChTrRDMultSEOJ[1]->Fill(ntxreco,rjet->Pt());
2632 fSCMRDMultSEOJ[1]->Fill(secondCentralR,rjet->Pt());
17f4943e 2633 fJEtaRDMultSEOJ[1]->Fill(rjet->Eta());
2634 fJetPtRDMultSEOJ[1]->Fill(rjet->Pt());
0c9acc4c 2635 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2636 fNChTrRecPerpMultSEOJ[1]->Fill(nTRecAboveThresholdPerp,rjet->Pt());
2637 if(fIsPossibleToSubstBckg) // if it was possible to calculate a perpendicular cone
2638 {
2639 fNChTrRecECorrPPMult->Fill(ntxrecoRecalc,pTbs,2); //filling mult bin
2640 fNChTrRecPerpECorrPPMult->Fill(nTRecAboveThresholdPerpRecalc,pTbs,2); //filling mult bin
2641 }
2642 }
2643 }
2644 if(refNJMult>=10&&refNJMult<15)
2645 {
2646 fNChTrRDMultSE[2]->Fill(ntxreco,rjet->Pt());
2647 fSCMRDMultSE[2]->Fill(secondCentralR,rjet->Pt());
2648 fTotalJetChargeSE[2]->Fill(fCurrentJetCharge);
2649 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2650 {
2651 fNChTrRDMultSEOJ[2]->Fill(ntxreco,rjet->Pt());
2652 fSCMRDMultSEOJ[2]->Fill(secondCentralR,rjet->Pt());
17f4943e 2653 fJEtaRDMultSEOJ[2]->Fill(rjet->Eta());
2654 fJetPtRDMultSEOJ[2]->Fill(rjet->Pt());
0c9acc4c 2655 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2656 fNChTrRecPerpMultSEOJ[2]->Fill(nTRecAboveThresholdPerp,rjet->Pt());
2657 if(fIsPossibleToSubstBckg) // if it was possible to calculate a perpendicular cone
2658 {
2659 fNChTrRecECorrPPMult->Fill(ntxrecoRecalc,pTbs,3); //filling mult bin
2660 fNChTrRecPerpECorrPPMult->Fill(nTRecAboveThresholdPerpRecalc,pTbs,3); //filling mult bin
2661 }
2662 }
2663 }
2664 if(refNJMult>=15&&refNJMult<20)
2665 {
2666 fNChTrRDMultSE[3]->Fill(ntxreco,rjet->Pt());
2667 fSCMRDMultSE[3]->Fill(secondCentralR,rjet->Pt());
2668 fTotalJetChargeSE[3]->Fill(fCurrentJetCharge);
2669 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2670 {
2671 fNChTrRDMultSEOJ[3]->Fill(ntxreco,rjet->Pt());
2672 fSCMRDMultSEOJ[3]->Fill(secondCentralR,rjet->Pt());
17f4943e 2673 fJEtaRDMultSEOJ[3]->Fill(rjet->Eta());
2674 fJetPtRDMultSEOJ[3]->Fill(rjet->Pt());
0c9acc4c 2675 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2676 fNChTrRecPerpMultSEOJ[3]->Fill(nTRecAboveThresholdPerp,rjet->Pt());
2677 if(fIsPossibleToSubstBckg) // if it was possible to calculate a perpendicular cone
2678 {
2679 fNChTrRecECorrPPMult->Fill(ntxrecoRecalc,pTbs,4); //filling mult bin
2680 fNChTrRecPerpECorrPPMult->Fill(nTRecAboveThresholdPerpRecalc,pTbs,4); //filling mult bin
2681 }
2682 }
2683 }
2684 if(refNJMult>=20&&refNJMult<30)
2685 {
2686 fNChTrRDMultSE[4]->Fill(ntxreco,rjet->Pt());
2687 fSCMRDMultSE[4]->Fill(secondCentralR,rjet->Pt());
2688 fTotalJetChargeSE[4]->Fill(fCurrentJetCharge);
2689 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2690 {
2691 fNChTrRDMultSEOJ[4]->Fill(ntxreco,rjet->Pt());
2692 fSCMRDMultSEOJ[4]->Fill(secondCentralR,rjet->Pt());
17f4943e 2693 fJEtaRDMultSEOJ[4]->Fill(rjet->Eta());
2694 fJetPtRDMultSEOJ[4]->Fill(rjet->Pt());
0c9acc4c 2695 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2696 fNChTrRecPerpMultSEOJ[4]->Fill(nTRecAboveThresholdPerp,rjet->Pt());
2697 if(fIsPossibleToSubstBckg) // if it was possible to calculate a perpendicular cone
2698 {
2699 fNChTrRecECorrPPMult->Fill(ntxrecoRecalc,pTbs,5); //filling mult bin
2700 fNChTrRecPerpECorrPPMult->Fill(nTRecAboveThresholdPerpRecalc,pTbs,5); //filling mult bin
2701 }
2702 }
2703 }
2704 if(refNJMult>=30&&refNJMult<40)
2705 {
2706 fNChTrRDMultSE[5]->Fill(ntxreco,rjet->Pt());
2707 fSCMRDMultSE[5]->Fill(secondCentralR,rjet->Pt());
2708 fTotalJetChargeSE[5]->Fill(fCurrentJetCharge);
2709 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2710 {
2711 fNChTrRDMultSEOJ[5]->Fill(ntxreco,rjet->Pt());
2712 fSCMRDMultSEOJ[5]->Fill(secondCentralR,rjet->Pt());
17f4943e 2713 fJEtaRDMultSEOJ[5]->Fill(rjet->Eta());
2714 fJetPtRDMultSEOJ[5]->Fill(rjet->Pt());
0c9acc4c 2715 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2716 fNChTrRecPerpMultSEOJ[5]->Fill(nTRecAboveThresholdPerp,rjet->Pt());
2717 if(fIsPossibleToSubstBckg) // if it was possible to calculate a perpendicular cone
2718 {
2719 fNChTrRecECorrPPMult->Fill(ntxrecoRecalc,pTbs,6); //filling mult bin
2720 fNChTrRecPerpECorrPPMult->Fill(nTRecAboveThresholdPerpRecalc,pTbs,6); //filling mult bin
2721 }
2722 }
2723 }
2724 if(refNJMult>=40&&refNJMult<50)
2725 {
2726 fNChTrRDMultSE[6]->Fill(ntxreco,rjet->Pt());
2727 fSCMRDMultSE[6]->Fill(secondCentralR,rjet->Pt());
2728 fTotalJetChargeSE[6]->Fill(fCurrentJetCharge);
2729 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2730 {
2731 fNChTrRDMultSEOJ[6]->Fill(ntxreco,rjet->Pt());
2732 fSCMRDMultSEOJ[6]->Fill(secondCentralR,rjet->Pt());
17f4943e 2733 fJEtaRDMultSEOJ[6]->Fill(rjet->Eta());
2734 fJetPtRDMultSEOJ[6]->Fill(rjet->Pt());
0c9acc4c 2735 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2736 fNChTrRecPerpMultSEOJ[6]->Fill(nTRecAboveThresholdPerp,rjet->Pt());
2737 if(fIsPossibleToSubstBckg) // if it was possible to calculate a perpendicular cone
2738 {
2739 fNChTrRecECorrPPMult->Fill(ntxrecoRecalc,pTbs,7); //filling mult bin
2740 fNChTrRecPerpECorrPPMult->Fill(nTRecAboveThresholdPerpRecalc,pTbs,7); //filling mult bin
2741 }
2742 }
2743 }
2744 if(refNJMult>=50)
2745 {
2746 fNChTrRDMultSE[7]->Fill(ntxreco,rjet->Pt());
2747 fSCMRDMultSE[7]->Fill(secondCentralR,rjet->Pt());
2748 fTotalJetChargeSE[7]->Fill(fCurrentJetCharge);
2749 if(recojets==1) // if only one jet in the whole event, and inside acceptance
2750 {
2751 fNChTrRDMultSEOJ[7]->Fill(ntxreco,rjet->Pt());
2752 fSCMRDMultSEOJ[7]->Fill(secondCentralR,rjet->Pt());
17f4943e 2753 fJEtaRDMultSEOJ[7]->Fill(rjet->Eta());
2754 fJetPtRDMultSEOJ[7]->Fill(rjet->Pt());
0c9acc4c 2755 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2756 fNChTrRecPerpMultSEOJ[7]->Fill(nTRecAboveThresholdPerp,rjet->Pt());
2757 if(fIsPossibleToSubstBckg) // if it was possible to calculate a perpendicular cone
2758 {
2759 fNChTrRecECorrPPMult->Fill(ntxrecoRecalc,pTbs,8); //filling mult bin
2760 fNChTrRecPerpECorrPPMult->Fill(nTRecAboveThresholdPerpRecalc,pTbs,8); //filling mult bin
2761 }
2762 }
2763 }
2764
2765 if(fIsPossibleToSubstBckg) // if it was possible to calculate a perpendicular cone
2766 {
2767 if(!IsEqualRel(fCurrentJetMinPtNT90, 7000.))
2768 fNChTrRecPerp->Fill(nTRecAboveThresholdPerp,rjet->Pt()); // these are my previous histos
2769 fSCMRecPerp->Fill(secondCentralRPerp,rjet->Pt()); // this are my previous histos
2770 if(!fIsHIevent) //if is a proton proton event
2771 {
2772 fNChTrRecECorr->Fill(ntxrecoRecalc,pTbs,1); //filling proton bin
2773 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
2774 {
2775 fNChTrRecPerpECorr->Fill(nTRecAboveThresholdPerpRecalc,pTbs,1); //filling proton bin
2776 if((rjet->Pt()>10.)&&(rjet->Pt()<20.))
2777 {
2778 fPtInPerpCon->Fill(fPerpCone->Pt(),1,1);
17f4943e 2779 fTotTracksCone->Fill(fTotTracksInCone,1,1);
0c9acc4c 2780 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 1, 1);
2781 }
2782 if((rjet->Pt()>20.)&&(rjet->Pt()<30.))
2783 {
2784 fPtInPerpCon->Fill(fPerpCone->Pt(),2,1);
17f4943e 2785 fTotTracksCone->Fill(fTotTracksInCone,2,1);
0c9acc4c 2786 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 1, 2);
2787 }
2788 if((rjet->Pt()>30.)&&(rjet->Pt()<40.))
2789 {
2790 fPtInPerpCon->Fill(fPerpCone->Pt(),3,1);
17f4943e 2791 fTotTracksCone->Fill(fTotTracksInCone,3,1);
0c9acc4c 2792 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 1, 3);
2793 }
2794 if((rjet->Pt()>40.)&&(rjet->Pt()<50.))
2795 {
2796 fPtInPerpCon->Fill(fPerpCone->Pt(),4,1);
17f4943e 2797 fTotTracksCone->Fill(fTotTracksInCone,4,1);
0c9acc4c 2798 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 1, 4);
2799 }
2800 if((rjet->Pt()>50.)&&(rjet->Pt()<60.))
2801 {
2802 fPtInPerpCon->Fill(fPerpCone->Pt(),5,1);
17f4943e 2803 fTotTracksCone->Fill(fTotTracksInCone,5,1);
0c9acc4c 2804 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 1, 5);
2805 }
2806 if((rjet->Pt()>60.)&&(rjet->Pt()<70.))
2807 {
2808 fPtInPerpCon->Fill(fPerpCone->Pt(),6,1);
17f4943e 2809 fTotTracksCone->Fill(fTotTracksInCone,6,1);
0c9acc4c 2810 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 1, 6);
2811 }
2812 if((rjet->Pt()>70.)&&(rjet->Pt()<80.))
2813 {
2814 fPtInPerpCon->Fill(fPerpCone->Pt(),7,1);
17f4943e 2815 fTotTracksCone->Fill(fTotTracksInCone,7,1);
0c9acc4c 2816 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 1, 7);
2817 }
2818 if((rjet->Pt()>80.)&&(rjet->Pt()<90.))
2819 {
2820 fPtInPerpCon->Fill(fPerpCone->Pt(),8,1);
17f4943e 2821 fTotTracksCone->Fill(fTotTracksInCone,8,1);
0c9acc4c 2822 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 1, 8);
2823 }
2824 }
2825 }
2826 if(fIsHIevent) //if is a PbPb event
2827 {
2828 if(fEventCent>=0&&fEventCent<10.)
2829 {
2830 fNChTrRecECorr->Fill(ntxrecoRecalc,pTbs,2); //filling first centrality bin
8dcbcbbb 2831 fJetPtCentPbPbRaw->Fill(rjet->Pt(),2);
2832 fJetPtCentPbPbCorr->Fill(pTbs,2);
0c9acc4c 2833 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
2834 {
2835 fNChTrRecPerpECorr->Fill(nTRecAboveThresholdPerpRecalc,pTbs,2); //filling first centrality bin
8dcbcbbb 2836 fMinTrackPtInNTXRecalc->Fill(fMinTrackPtInNTXR,rjet->Pt(),2);
2837 fMinTrackPtInNTXh[1]->Fill(fMinTrackPtInNTX,rjet->Pt(),2);
0c9acc4c 2838 if((rjet->Pt()>10.)&&(rjet->Pt()<20.))
2839 {
2840 fPtInPerpCon->Fill(fPerpCone->Pt(),1,2);
17f4943e 2841 fTotTracksCone->Fill(fTotTracksInCone,1,2);
0c9acc4c 2842 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 2, 1);
2843 }
2844 if((rjet->Pt()>20.)&&(rjet->Pt()<30.))
2845 {
2846 fPtInPerpCon->Fill(fPerpCone->Pt(),2,2);
17f4943e 2847 fTotTracksCone->Fill(fTotTracksInCone,2,2);
0c9acc4c 2848 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 2, 2);
2849 }
2850 if((rjet->Pt()>30.)&&(rjet->Pt()<40.))
2851 {
2852 fPtInPerpCon->Fill(fPerpCone->Pt(),3,2);
17f4943e 2853 fTotTracksCone->Fill(fTotTracksInCone,3,2);
0c9acc4c 2854 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 2, 3);
2855 }
2856 if((rjet->Pt()>40.)&&(rjet->Pt()<50.))
2857 {
2858 fPtInPerpCon->Fill(fPerpCone->Pt(),4,2);
17f4943e 2859 fTotTracksCone->Fill(fTotTracksInCone,4,2);
0c9acc4c 2860 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 2, 4);
2861 }
2862 if((rjet->Pt()>50.)&&(rjet->Pt()<60.))
2863 {
2864 fPtInPerpCon->Fill(fPerpCone->Pt(),5,2);
17f4943e 2865 fTotTracksCone->Fill(fTotTracksInCone,5,2);
0c9acc4c 2866 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 2, 5);
2867 }
2868 if((rjet->Pt()>60.)&&(rjet->Pt()<70.))
2869 {
2870 fPtInPerpCon->Fill(fPerpCone->Pt(),6,2);
17f4943e 2871 fTotTracksCone->Fill(fTotTracksInCone,6,2);
0c9acc4c 2872 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 2, 6);
2873 }
2874 if((rjet->Pt()>70.)&&(rjet->Pt()<80.))
2875 {
2876 fPtInPerpCon->Fill(fPerpCone->Pt(),7,2);
17f4943e 2877 fTotTracksCone->Fill(fTotTracksInCone,7,2);
0c9acc4c 2878 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 2, 7);
2879 }
2880 if((rjet->Pt()>80.)&&(rjet->Pt()<90.))
2881 {
2882 fPtInPerpCon->Fill(fPerpCone->Pt(),8,2);
17f4943e 2883 fTotTracksCone->Fill(fTotTracksInCone,8,2);
0c9acc4c 2884 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 2, 8);
2885 }
2886 }
2887 }
2888 if(fEventCent>=10&&fEventCent<20.)
2889 {
2890 fNChTrRecECorr->Fill(ntxrecoRecalc,pTbs,3); //filling second centrality bin
8dcbcbbb 2891 fJetPtCentPbPbRaw->Fill(rjet->Pt(),3);
2892 fJetPtCentPbPbCorr->Fill(pTbs,3);
0c9acc4c 2893 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
2894 {
2895 fNChTrRecPerpECorr->Fill(nTRecAboveThresholdPerpRecalc,pTbs,3); //filling second centrality bin
8dcbcbbb 2896 fMinTrackPtInNTXRecalc->Fill(fMinTrackPtInNTXR,rjet->Pt(),3);
2897 fMinTrackPtInNTXh[1]->Fill(fMinTrackPtInNTX,rjet->Pt(),3);
0c9acc4c 2898 if((rjet->Pt()>10.)&&(rjet->Pt()<20.))
2899 {
2900 fPtInPerpCon->Fill(fPerpCone->Pt(),1,3);
17f4943e 2901 fTotTracksCone->Fill(fTotTracksInCone,1,3);
0c9acc4c 2902 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 3, 1);
2903 }
2904 if((rjet->Pt()>20.)&&(rjet->Pt()<30.))
2905 {
2906 fPtInPerpCon->Fill(fPerpCone->Pt(),2,3);
17f4943e 2907 fTotTracksCone->Fill(fTotTracksInCone,2,3);
0c9acc4c 2908 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 3, 2);
2909 }
2910 if((rjet->Pt()>30.)&&(rjet->Pt()<40.))
2911 {
2912 fPtInPerpCon->Fill(fPerpCone->Pt(),3,3);
17f4943e 2913 fTotTracksCone->Fill(fTotTracksInCone,3,3);
0c9acc4c 2914 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 3, 3);
2915 }
2916 if((rjet->Pt()>40.)&&(rjet->Pt()<50.))
2917 {
2918 fPtInPerpCon->Fill(fPerpCone->Pt(),4,3);
17f4943e 2919 fTotTracksCone->Fill(fTotTracksInCone,4,3);
0c9acc4c 2920 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 3, 4);
2921 }
2922 if((rjet->Pt()>50.)&&(rjet->Pt()<60.))
2923 {
2924 fPtInPerpCon->Fill(fPerpCone->Pt(),5,3);
17f4943e 2925 fTotTracksCone->Fill(fTotTracksInCone,5,3);
0c9acc4c 2926 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 3, 5);
2927 }
2928 if((rjet->Pt()>60.)&&(rjet->Pt()<70.))
2929 {
2930 fPtInPerpCon->Fill(fPerpCone->Pt(),6,3);
17f4943e 2931 fTotTracksCone->Fill(fTotTracksInCone,6,3);
0c9acc4c 2932 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 3, 6);
2933 }
2934 if((rjet->Pt()>70.)&&(rjet->Pt()<80.))
2935 {
2936 fPtInPerpCon->Fill(fPerpCone->Pt(),7,3);
17f4943e 2937 fTotTracksCone->Fill(fTotTracksInCone,7,3);
0c9acc4c 2938 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 3, 7);
2939 }
2940 if((rjet->Pt()>80.)&&(rjet->Pt()<90.))
2941 {
2942 fPtInPerpCon->Fill(fPerpCone->Pt(),8,3);
17f4943e 2943 fTotTracksCone->Fill(fTotTracksInCone,8,3);
0c9acc4c 2944 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 3, 8);
2945 }
2946 }
2947 }
2948 if(fEventCent>=20&&fEventCent<30.)
2949 {
2950 fNChTrRecECorr->Fill(ntxrecoRecalc,pTbs,4); //filling third centrality bin
8dcbcbbb 2951 fJetPtCentPbPbRaw->Fill(rjet->Pt(),4);
2952 fJetPtCentPbPbCorr->Fill(pTbs,4);
0c9acc4c 2953 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
2954 {
2955 fNChTrRecPerpECorr->Fill(nTRecAboveThresholdPerpRecalc,pTbs,4); //filling third centrality bin
8dcbcbbb 2956 fMinTrackPtInNTXRecalc->Fill(fMinTrackPtInNTXR,rjet->Pt(),4);
2957 fMinTrackPtInNTXh[1]->Fill(fMinTrackPtInNTX,rjet->Pt(),4);
0c9acc4c 2958 if((rjet->Pt()>10.)&&(rjet->Pt()<20.))
2959 {
2960 fPtInPerpCon->Fill(fPerpCone->Pt(),1,4);
17f4943e 2961 fTotTracksCone->Fill(fTotTracksInCone,1,4);
0c9acc4c 2962 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 4, 1);
2963 }
2964 if((rjet->Pt()>20.)&&(rjet->Pt()<30.))
2965 {
2966 fPtInPerpCon->Fill(fPerpCone->Pt(),2,4);
17f4943e 2967 fTotTracksCone->Fill(fTotTracksInCone,2,4);
0c9acc4c 2968 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 4, 2);
2969 }
2970 if((rjet->Pt()>30.)&&(rjet->Pt()<40.))
2971 {
2972 fPtInPerpCon->Fill(fPerpCone->Pt(),3,4);
17f4943e 2973 fTotTracksCone->Fill(fTotTracksInCone,3,4);
0c9acc4c 2974 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 4, 3);
2975 }
2976 if((rjet->Pt()>40.)&&(rjet->Pt()<50.))
2977 {
2978 fPtInPerpCon->Fill(fPerpCone->Pt(),4,4);
17f4943e 2979 fTotTracksCone->Fill(fTotTracksInCone,4,4);
0c9acc4c 2980 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 4, 4);
2981 }
2982 if((rjet->Pt()>50.)&&(rjet->Pt()<60.))
2983 {
2984 fPtInPerpCon->Fill(fPerpCone->Pt(),5,4);
17f4943e 2985 fTotTracksCone->Fill(fTotTracksInCone,5,4);
0c9acc4c 2986 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 4, 5);
2987 }
2988 if((rjet->Pt()>60.)&&(rjet->Pt()<70.))
2989 {
2990 fPtInPerpCon->Fill(fPerpCone->Pt(),6,4);
17f4943e 2991 fTotTracksCone->Fill(fTotTracksInCone,6,4);
0c9acc4c 2992 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 4, 6);
2993 }
2994 if((rjet->Pt()>70.)&&(rjet->Pt()<80.))
2995 {
2996 fPtInPerpCon->Fill(fPerpCone->Pt(),7,4);
17f4943e 2997 fTotTracksCone->Fill(fTotTracksInCone,7,4);
0c9acc4c 2998 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 4, 7);
2999 }
3000 if((rjet->Pt()>80.)&&(rjet->Pt()<90.))
3001 {
3002 fPtInPerpCon->Fill(fPerpCone->Pt(),8,4);
17f4943e 3003 fTotTracksCone->Fill(fTotTracksInCone,8,4);
0c9acc4c 3004 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 4, 8);
3005 }
3006 }
3007 }
3008 if(fEventCent>=30&&fEventCent<40.)
3009 {
3010 fNChTrRecECorr->Fill(ntxrecoRecalc,pTbs,5); //filling fourth centrality bin
8dcbcbbb 3011 fJetPtCentPbPbRaw->Fill(rjet->Pt(),5);
3012 fJetPtCentPbPbCorr->Fill(pTbs,5);
0c9acc4c 3013 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
3014 {
3015 fNChTrRecPerpECorr->Fill(nTRecAboveThresholdPerpRecalc,pTbs,5); //filling fourth centrality bin
8dcbcbbb 3016 fMinTrackPtInNTXRecalc->Fill(fMinTrackPtInNTXR,rjet->Pt(),5);
3017 fMinTrackPtInNTXh[1]->Fill(fMinTrackPtInNTX,rjet->Pt(),5);
0c9acc4c 3018 if((rjet->Pt()>10.)&&(rjet->Pt()<20.))
3019 {
3020 fPtInPerpCon->Fill(fPerpCone->Pt(),1,5);
17f4943e 3021 fTotTracksCone->Fill(fTotTracksInCone,1,5);
0c9acc4c 3022 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 5, 1);
3023 }
3024 if((rjet->Pt()>20.)&&(rjet->Pt()<30.))
3025 {
3026 fPtInPerpCon->Fill(fPerpCone->Pt(),2,5);
17f4943e 3027 fTotTracksCone->Fill(fTotTracksInCone,2,5);
0c9acc4c 3028 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 5, 2);
3029 }
3030 if((rjet->Pt()>30.)&&(rjet->Pt()<40.))
3031 {
3032 fPtInPerpCon->Fill(fPerpCone->Pt(),3,5);
17f4943e 3033 fTotTracksCone->Fill(fTotTracksInCone,3,5);
0c9acc4c 3034 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 5, 3);
3035 }
3036 if((rjet->Pt()>40.)&&(rjet->Pt()<50.))
3037 {
3038 fPtInPerpCon->Fill(fPerpCone->Pt(),4,5);
17f4943e 3039 fTotTracksCone->Fill(fTotTracksInCone,4,5);
0c9acc4c 3040 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 5, 4);
3041 }
3042 if((rjet->Pt()>50.)&&(rjet->Pt()<60.))
3043 {
3044 fPtInPerpCon->Fill(fPerpCone->Pt(),5,5);
17f4943e 3045 fTotTracksCone->Fill(fTotTracksInCone,5,5);
0c9acc4c 3046 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 5, 5);
3047 }
3048 if((rjet->Pt()>60.)&&(rjet->Pt()<70.))
3049 {
3050 fPtInPerpCon->Fill(fPerpCone->Pt(),6,5);
17f4943e 3051 fTotTracksCone->Fill(fTotTracksInCone,6,5);
0c9acc4c 3052 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 5, 6);
3053 }
3054 if((rjet->Pt()>70.)&&(rjet->Pt()<80.))
3055 {
3056 fPtInPerpCon->Fill(fPerpCone->Pt(),7,5);
17f4943e 3057 fTotTracksCone->Fill(fTotTracksInCone,7,5);
0c9acc4c 3058 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 5, 7);
3059 }
3060 if((rjet->Pt()>80.)&&(rjet->Pt()<90.))
3061 {
3062 fPtInPerpCon->Fill(fPerpCone->Pt(),8,5);
17f4943e 3063 fTotTracksCone->Fill(fTotTracksInCone,8,5);
0c9acc4c 3064 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 5, 8);
3065 }
3066 }
3067 }
3068 if(fEventCent>=40&&fEventCent<50.)
3069 {
3070 fNChTrRecECorr->Fill(ntxrecoRecalc,pTbs,6); //filling fourth centrality bin
8dcbcbbb 3071 fJetPtCentPbPbRaw->Fill(rjet->Pt(),6);
3072 fJetPtCentPbPbCorr->Fill(pTbs,6);
0c9acc4c 3073 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
3074 {
3075 fNChTrRecPerpECorr->Fill(nTRecAboveThresholdPerpRecalc,pTbs,6); //filling fourth centrality bin
8dcbcbbb 3076 fMinTrackPtInNTXRecalc->Fill(fMinTrackPtInNTXR,rjet->Pt(),6);
3077 fMinTrackPtInNTXh[1]->Fill(fMinTrackPtInNTX,rjet->Pt(),6);
0c9acc4c 3078 if((rjet->Pt()>10.)&&(rjet->Pt()<20.))
3079 {
3080 fPtInPerpCon->Fill(fPerpCone->Pt(),1,6);
17f4943e 3081 fTotTracksCone->Fill(fTotTracksInCone,1,6);
0c9acc4c 3082 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 6, 1);
3083 }
3084 if((rjet->Pt()>20.)&&(rjet->Pt()<30.))
3085 {
3086 fPtInPerpCon->Fill(fPerpCone->Pt(),2,6);
17f4943e 3087 fTotTracksCone->Fill(fTotTracksInCone,2,6);
0c9acc4c 3088 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 6, 2);
3089 }
3090 if((rjet->Pt()>30.)&&(rjet->Pt()<40.))
3091 {
3092 fPtInPerpCon->Fill(fPerpCone->Pt(),3,6);
17f4943e 3093 fTotTracksCone->Fill(fTotTracksInCone,3,6);
0c9acc4c 3094 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 6, 3);
3095 }
3096 if((rjet->Pt()>40.)&&(rjet->Pt()<50.))
3097 {
3098 fPtInPerpCon->Fill(fPerpCone->Pt(),4,6);
17f4943e 3099 fTotTracksCone->Fill(fTotTracksInCone,4,6);
0c9acc4c 3100 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 6, 4);
3101 }
3102 if((rjet->Pt()>50.)&&(rjet->Pt()<60.))
3103 {
3104 fPtInPerpCon->Fill(fPerpCone->Pt(),5,6);
17f4943e 3105 fTotTracksCone->Fill(fTotTracksInCone,5,6);
0c9acc4c 3106 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 6, 5);
3107 }
3108 if((rjet->Pt()>60.)&&(rjet->Pt()<70.))
3109 {
3110 fPtInPerpCon->Fill(fPerpCone->Pt(),6,6);
17f4943e 3111 fTotTracksCone->Fill(fTotTracksInCone,6,6);
0c9acc4c 3112 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 6, 6);
3113 }
3114 if((rjet->Pt()>70.)&&(rjet->Pt()<80.))
3115 {
3116 fPtInPerpCon->Fill(fPerpCone->Pt(),7,6);
17f4943e 3117 fTotTracksCone->Fill(fTotTracksInCone,7,6);
0c9acc4c 3118 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 6, 7);
3119 }
3120 if((rjet->Pt()>80.)&&(rjet->Pt()<90.))
3121 {
3122 fPtInPerpCon->Fill(fPerpCone->Pt(),8,6);
17f4943e 3123 fTotTracksCone->Fill(fTotTracksInCone,8,6);
0c9acc4c 3124 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 6, 8);
3125 }
3126 }
3127 }
3128 if(fEventCent>=50&&fEventCent<60.)
3129 {
3130 fNChTrRecECorr->Fill(ntxrecoRecalc,pTbs,7); //filling fourth centrality bin
8dcbcbbb 3131 fJetPtCentPbPbRaw->Fill(rjet->Pt(),7);
3132 fJetPtCentPbPbCorr->Fill(pTbs,7);
0c9acc4c 3133 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
3134 {
3135 fNChTrRecPerpECorr->Fill(nTRecAboveThresholdPerpRecalc,pTbs,7); //filling fourth centrality bin
8dcbcbbb 3136 fMinTrackPtInNTXRecalc->Fill(fMinTrackPtInNTXR,rjet->Pt(),7);
3137 fMinTrackPtInNTXh[1]->Fill(fMinTrackPtInNTX,rjet->Pt(),7);
0c9acc4c 3138 if((rjet->Pt()>10.)&&(rjet->Pt()<20.))
3139 {
3140 fPtInPerpCon->Fill(fPerpCone->Pt(),1,7);
17f4943e 3141 fTotTracksCone->Fill(fTotTracksInCone,1,7);
0c9acc4c 3142 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 7, 1);
3143 }
3144 if((rjet->Pt()>20.)&&(rjet->Pt()<30.))
3145 {
3146 fPtInPerpCon->Fill(fPerpCone->Pt(),2,7);
17f4943e 3147 fTotTracksCone->Fill(fTotTracksInCone,2,7);
0c9acc4c 3148 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 7, 2);
3149 }
3150 if((rjet->Pt()>30.)&&(rjet->Pt()<40.))
3151 {
3152 fPtInPerpCon->Fill(fPerpCone->Pt(),3,7);
17f4943e 3153 fTotTracksCone->Fill(fTotTracksInCone,3,7);
0c9acc4c 3154 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 7, 3);
3155 }
3156 if((rjet->Pt()>40.)&&(rjet->Pt()<50.))
3157 {
3158 fPtInPerpCon->Fill(fPerpCone->Pt(),4,7);
17f4943e 3159 fTotTracksCone->Fill(fTotTracksInCone,4,7);
0c9acc4c 3160 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 7, 4);
3161 }
3162 if((rjet->Pt()>50.)&&(rjet->Pt()<60.))
3163 {
3164 fPtInPerpCon->Fill(fPerpCone->Pt(),5,7);
17f4943e 3165 fTotTracksCone->Fill(fTotTracksInCone,5,7);
0c9acc4c 3166 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 7, 5);
3167 }
3168 if((rjet->Pt()>60.)&&(rjet->Pt()<70.))
3169 {
3170 fPtInPerpCon->Fill(fPerpCone->Pt(),6,7);
17f4943e 3171 fTotTracksCone->Fill(fTotTracksInCone,6,7);
0c9acc4c 3172 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 7, 6);
3173 }
3174 if((rjet->Pt()>70.)&&(rjet->Pt()<80.))
3175 {
3176 fPtInPerpCon->Fill(fPerpCone->Pt(),7,7);
17f4943e 3177 fTotTracksCone->Fill(fTotTracksInCone,7,7);
0c9acc4c 3178 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 7, 7);
3179 }
3180 if((rjet->Pt()>80.)&&(rjet->Pt()<90.))
3181 {
3182 fPtInPerpCon->Fill(fPerpCone->Pt(),8,7);
17f4943e 3183 fTotTracksCone->Fill(fTotTracksInCone,8,7);
0c9acc4c 3184 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 7, 8);
3185 }
3186 }
3187 }
3188 if(fEventCent>=60&&fEventCent<70.)
3189 {
3190 fNChTrRecECorr->Fill(ntxrecoRecalc,pTbs,8); //filling fourth centrality bin
8dcbcbbb 3191 fJetPtCentPbPbRaw->Fill(rjet->Pt(),8);
3192 fJetPtCentPbPbCorr->Fill(pTbs,8);
0c9acc4c 3193 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
3194 {
3195 fNChTrRecPerpECorr->Fill(nTRecAboveThresholdPerpRecalc,pTbs,8); //filling fourth centrality bin
8dcbcbbb 3196 fMinTrackPtInNTXRecalc->Fill(fMinTrackPtInNTXR,rjet->Pt(),8);
3197 fMinTrackPtInNTXh[1]->Fill(fMinTrackPtInNTX,rjet->Pt(),8);
0c9acc4c 3198 if((rjet->Pt()>10.)&&(rjet->Pt()<20.))
3199 {
3200 fPtInPerpCon->Fill(fPerpCone->Pt(),1,8);
17f4943e 3201 fTotTracksCone->Fill(fTotTracksInCone,1,8);
0c9acc4c 3202 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 8, 1);
3203 }
3204 if((rjet->Pt()>20.)&&(rjet->Pt()<30.))
3205 {
3206 fPtInPerpCon->Fill(fPerpCone->Pt(),2,8);
17f4943e 3207 fTotTracksCone->Fill(fTotTracksInCone,2,8);
0c9acc4c 3208 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 8, 2);
3209 }
3210 if((rjet->Pt()>30.)&&(rjet->Pt()<40.))
3211 {
3212 fPtInPerpCon->Fill(fPerpCone->Pt(),3,8);
17f4943e 3213 fTotTracksCone->Fill(fTotTracksInCone,3,8);
0c9acc4c 3214 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 8, 3);
3215 }
3216 if((rjet->Pt()>40.)&&(rjet->Pt()<50.))
3217 {
3218 fPtInPerpCon->Fill(fPerpCone->Pt(),4,8);
17f4943e 3219 fTotTracksCone->Fill(fTotTracksInCone,4,8);
0c9acc4c 3220 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 8, 4);
3221 }
3222 if((rjet->Pt()>50.)&&(rjet->Pt()<60.))
3223 {
3224 fPtInPerpCon->Fill(fPerpCone->Pt(),5,8);
17f4943e 3225 fTotTracksCone->Fill(fTotTracksInCone,5,8);
0c9acc4c 3226 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 8, 5);
3227 }
3228 if((rjet->Pt()>60.)&&(rjet->Pt()<70.))
3229 {
3230 fPtInPerpCon->Fill(fPerpCone->Pt(),6,8);
17f4943e 3231 fTotTracksCone->Fill(fTotTracksInCone,6,8);
0c9acc4c 3232 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 8, 6);
3233 }
3234 if((rjet->Pt()>70.)&&(rjet->Pt()<80.))
3235 {
3236 fPtInPerpCon->Fill(fPerpCone->Pt(),7,8);
17f4943e 3237 fTotTracksCone->Fill(fTotTracksInCone,7,8);
0c9acc4c 3238 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 8, 7);
3239 }
3240 if((rjet->Pt()>80.)&&(rjet->Pt()<90.))
3241 {
3242 fPtInPerpCon->Fill(fPerpCone->Pt(),8,8);
17f4943e 3243 fTotTracksCone->Fill(fTotTracksInCone,8,8);
0c9acc4c 3244 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 8, 8);
3245 }
3246 }
3247 }
3248 if(fEventCent>=70&&fEventCent<80.)
3249 {
3250 fNChTrRecECorr->Fill(ntxrecoRecalc,pTbs,9); //filling fourth centrality bin
8dcbcbbb 3251 fJetPtCentPbPbRaw->Fill(rjet->Pt(),9);
3252 fJetPtCentPbPbCorr->Fill(pTbs,9);
0c9acc4c 3253 if(!IsEqualRel(fCurrentJetMinPtNT90Recalc, 7000.))
3254 {
3255 fNChTrRecPerpECorr->Fill(nTRecAboveThresholdPerpRecalc,pTbs,9); //filling fourth centrality bin
8dcbcbbb 3256 fMinTrackPtInNTXRecalc->Fill(fMinTrackPtInNTXR,rjet->Pt(),9);
3257 fMinTrackPtInNTXh[1]->Fill(fMinTrackPtInNTX,rjet->Pt(),9);
0c9acc4c 3258 if((rjet->Pt()>10.)&&(rjet->Pt()<20.))
3259 {
3260 fPtInPerpCon->Fill(fPerpCone->Pt(),1,9);
17f4943e 3261 fTotTracksCone->Fill(fTotTracksInCone,1,9);
0c9acc4c 3262 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 9, 1);
3263 }
3264 if((rjet->Pt()>20.)&&(rjet->Pt()<30.))
3265 {
3266 fPtInPerpCon->Fill(fPerpCone->Pt(),2,9);
17f4943e 3267 fTotTracksCone->Fill(fTotTracksInCone,2,9);
0c9acc4c 3268 FillPerpConeHisto(fPtDistInPerpConeRaw, tracksAOD, fAOD, 9, 2);
3269 }
3270 if((rjet->Pt()>30.)&&(rjet->Pt()<40.))
3271 {
3272 fPtInPerpCon->Fill(fPerpCone->Pt(),3,9);