]>
Commit | Line | Data |
---|---|---|
1 | #ifndef ALIANAPARTICLEHADRONCORRELATION_H | |
2 | #define ALIANAPARTICLEHADRONCORRELATION_H | |
3 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
4 | * See cxx source for full Copyright notice */ | |
5 | ||
6 | //_________________________________________________________________________ | |
7 | // Class that contains the algorithm for the analysis of | |
8 | // particle - hadron correlations | |
9 | // Particle (for example direct gamma) must be found in a previous analysis | |
10 | // | |
11 | //-- Author: Gustavo Conesa (LNF-INFN) (LPSC-IN2P3-CNRS) | |
12 | // Yaxian Mao (LPSC-IN2P3-CNRS) and (CNWU) first usable implementation. | |
13 | // Xiangrong Zhu (CNWU), implementtion of own mixing. | |
14 | // | |
15 | ||
16 | // --- Analysis system --- | |
17 | ||
18 | #include "AliAnaCaloTrackCorrBaseClass.h" | |
19 | class AliAODPWG4ParticleCorrelation ; | |
20 | ||
21 | class AliAnaParticleHadronCorrelation : public AliAnaCaloTrackCorrBaseClass { | |
22 | ||
23 | public: | |
24 | ||
25 | AliAnaParticleHadronCorrelation() ; // default ctor | |
26 | virtual ~AliAnaParticleHadronCorrelation() ; // virtual dtor | |
27 | ||
28 | // General methods | |
29 | ||
30 | TObjString * GetAnalysisCuts(); | |
31 | ||
32 | TList * GetCreateOutputObjects(); | |
33 | ||
34 | void Init(); | |
35 | ||
36 | void InitParameters(); | |
37 | ||
38 | void FillEventMixPool() ; | |
39 | ||
40 | void MakeAnalysisFillHistograms() ; | |
41 | ||
42 | void Print(const Option_t * opt) const; | |
43 | ||
44 | // Main analysis methods | |
45 | ||
46 | Bool_t FindLeadingOppositeHadronInWindow(AliAODPWG4ParticleCorrelation * particle); | |
47 | ||
48 | Bool_t GetDecayPhotonMomentum (AliAODPWG4Particle* trigger, TLorentzVector & mom1, TLorentzVector & mom2); | |
49 | ||
50 | void MakeChargedCorrelation (AliAODPWG4ParticleCorrelation * particle) ; | |
51 | ||
52 | void MakeNeutralCorrelation (AliAODPWG4ParticleCorrelation * particle) ; | |
53 | ||
54 | void MakeMCChargedCorrelation (Int_t triggerMCLable, Int_t histoIndex) ; | |
55 | ||
56 | void MakeChargedMixCorrelation(AliAODPWG4ParticleCorrelation * particle) ; | |
57 | ||
58 | // Filling histogram methods | |
59 | ||
60 | void FillChargedAngularCorrelationHistograms (Float_t ptAssoc, Float_t ptTrig, Int_t assocBin, | |
61 | Float_t phiAssoc, Float_t phiTrig, Float_t deltaPhi, | |
62 | Float_t etaAssoc, Float_t etaTrig, | |
63 | Bool_t decay, Float_t hmpidSignal, Int_t outTOF, | |
64 | Int_t cenbin, Int_t mcTag); | |
65 | ||
66 | void FillChargedEventMixPool(); | |
67 | ||
68 | Bool_t FillChargedMCCorrelationHistograms (Float_t mcAssocPt, Float_t mcAssocPhi, Float_t mcAssocEta, | |
69 | Float_t mcTrigPt, Float_t mcTrigPhi, Float_t mcTrigEta, Int_t histoIndex); | |
70 | ||
71 | ||
72 | void FillChargedMomentumImbalanceHistograms (Float_t ptTrig, Float_t ptAssoc, | |
73 | Float_t deltaPhi, Int_t cenbin, Int_t charge, | |
74 | Int_t assocBin, Bool_t decay, | |
75 | Int_t outTOF, Int_t mcTag ); | |
76 | ||
77 | void FillChargedUnderlyingEventHistograms (Float_t ptTrig, Float_t ptAssoc, | |
78 | Float_t deltaPhi, Int_t cenbin, Int_t outTOF); | |
79 | ||
80 | void FillChargedUnderlyingEventSidesHistograms(Float_t ptTrig, Float_t ptAssoc, | |
81 | Float_t deltaPhi); | |
82 | ||
83 | void FillDecayPhotonCorrelationHistograms (Float_t ptAssoc, Float_t phiAssoc, | |
84 | TLorentzVector mom1, TLorentzVector mom2, | |
85 | Bool_t bChargedOrNeutral); | |
86 | ||
87 | void FillNeutralEventMixPool(); | |
88 | ||
89 | ||
90 | void FillNeutralUnderlyingEventSidesHistograms(Float_t ptTrig, Float_t ptAssoc, | |
91 | Float_t zT, Float_t hbpZT, | |
92 | Float_t deltaPhi); | |
93 | ||
94 | Int_t GetMCTagHistogramIndex(Int_t tag); | |
95 | ||
96 | Bool_t IsTriggerTheEventLeadingParticle(); | |
97 | ||
98 | // Parameter setter and getter | |
99 | ||
100 | Float_t GetMinimumTriggerPt() const { return GetMinPt() ; } | |
101 | Float_t GetMaximumTriggerPt() const { return GetMaxPt() ; } | |
102 | void SetTriggerPtRange(Float_t min, Float_t max) | |
103 | { SetMinPt(min), SetMaxPt(max) ; } | |
104 | ||
105 | ||
106 | Float_t GetMaximumAssociatedPt() const { return fMaxAssocPt ; } | |
107 | Float_t GetMinimumAssociatedPt() const { return fMinAssocPt ; } | |
108 | void SetAssociatedPtRange(Float_t min, Float_t max) | |
109 | { fMaxAssocPt = max ; fMinAssocPt = min ; } | |
110 | ||
111 | Double_t GetDeltaPhiMaxCut() const { return fDeltaPhiMaxCut ; } | |
112 | Double_t GetDeltaPhiMinCut() const { return fDeltaPhiMinCut ; } | |
113 | void SetDeltaPhiCutRange(Double_t phimin, Double_t phimax) | |
114 | { fDeltaPhiMaxCut = phimax ; fDeltaPhiMinCut = phimin ; } | |
115 | ||
116 | // Leading Hadron | |
117 | Double_t GetLeadHadronPhiMaxCut() const { return fMaxLeadHadPhi ; } | |
118 | Double_t GetLeadHadronPhiMinCut() const { return fMinLeadHadPhi ; } | |
119 | void SetLeadHadronPhiCut(Float_t min, Float_t max) | |
120 | { fMaxLeadHadPhi = max ; fMinLeadHadPhi = min ; } | |
121 | ||
122 | Double_t GetLeadHadronPtMinCut() const { return fMinLeadHadPt ; } | |
123 | Double_t GetLeadHadronPtMaxCut() const { return fMaxLeadHadPt ; } | |
124 | void SetLeadHadronPtCut(Float_t min, Float_t max) | |
125 | { fMaxLeadHadPt = max ; fMinLeadHadPt = min ; } | |
126 | ||
127 | Bool_t IsLeadHadronCutOn() const { return fSelectLeadingHadronAngle ; } | |
128 | void SwitchOnLeadHadronSelection() { fSelectLeadingHadronAngle = kTRUE ; } | |
129 | void SwitchOffLeadHadronSelection() { fSelectLeadingHadronAngle = kFALSE ; } | |
130 | ||
131 | // UE | |
132 | ||
133 | Double_t GetUeDeltaPhiMaxCut() const { return fUeDeltaPhiMaxCut ; } | |
134 | Double_t GetUeDeltaPhiMinCut() const { return fUeDeltaPhiMinCut ; } | |
135 | ||
136 | void SetUeDeltaPhiCutRange(Double_t uephimin, Double_t uephimax) | |
137 | { fUeDeltaPhiMaxCut = uephimax ; fUeDeltaPhiMinCut = uephimin ; } | |
138 | ||
139 | Bool_t IsSeveralUEOn() const { return fMakeSeveralUE ; } | |
140 | void SwitchOnSeveralUECalculation() { fMakeSeveralUE = kTRUE ; } | |
141 | void SwitchOffSeveralUECalculation() { fMakeSeveralUE = kFALSE ; } | |
142 | ||
143 | // Do trigger-neutral correlation | |
144 | Bool_t DoNeutralCorr() const { return fNeutralCorr ; } | |
145 | void SwitchOnNeutralCorr() { fNeutralCorr = kTRUE ; } | |
146 | void SwitchOffNeutralCorr() { fNeutralCorr = kFALSE ; } | |
147 | ||
148 | // Taking the absolute leading as the trigger or not | |
149 | Bool_t DoAbsoluteLeading() const { return fMakeAbsoluteLeading ; } | |
150 | void SwitchOnAbsoluteLeading() { fMakeAbsoluteLeading = kTRUE ; } | |
151 | void SwitchOffAbsoluteLeading() { fMakeAbsoluteLeading = kFALSE ; } | |
152 | ||
153 | // Taking the near side leading as the trigger or not | |
154 | Bool_t DoNearSideLeading() const { return fMakeNearSideLeading ; } | |
155 | void SwitchOnNearSideLeading() { fMakeNearSideLeading = kTRUE ; } | |
156 | void SwitchOffNearSideLeading() { fMakeNearSideLeading = kFALSE ; } | |
157 | ||
158 | // Do decay-hadron correlation if it is pi0 trigger | |
159 | Bool_t IsPi0Trigger() const { return fPi0Trigger ; } | |
160 | void SwitchOnPi0TriggerDecayCorr() { fPi0Trigger = kTRUE ; } | |
161 | void SwitchOffPi0TriggerDecayCorr() { fPi0Trigger = kFALSE ; } | |
162 | ||
163 | Bool_t IsDecayTrigger() const { return fDecayTrigger ; } | |
164 | void SwitchOnDecayTriggerDecayCorr() { fDecayTrigger = kTRUE ; } | |
165 | void SwitchOffDecayTriggerDecayCorr() { fDecayTrigger = kFALSE ; } | |
166 | ||
167 | Bool_t IsHMPIDCorrelation() const { return fHMPIDCorrelation ; } | |
168 | void SwitchOnHMPIDCorrelation() { fHMPIDCorrelation = kTRUE ; } | |
169 | void SwitchOffHMPIDCorrelation() { fHMPIDCorrelation = kFALSE ; } | |
170 | ||
171 | void SwitchOnFillBradHistograms() { fFillBradHisto = kTRUE ; } | |
172 | void SwitchOffFillBradHistograms() { fFillBradHisto = kFALSE ; } | |
173 | ||
174 | Bool_t OnlyIsolated() const { return fSelectIsolated ; } | |
175 | void SelectIsolated(Bool_t s) { fSelectIsolated = s ; } | |
176 | ||
177 | void SetPi0AODBranchName(TString n) { fPi0AODBranchName = n ; } | |
178 | ||
179 | void SetNAssocPtBins(Int_t n) ; | |
180 | void SetAssocPtBinLimit(Int_t ibin, Float_t pt) ; | |
181 | ||
182 | Bool_t IsMixStoredInReaderOn() const { return fUseMixStoredInReader ; } | |
183 | void SwitchOnUseMixStoredInReader() { fUseMixStoredInReader = kTRUE ; } | |
184 | void SwitchOffUseMixStoredInReader() { fUseMixStoredInReader = kFALSE; } | |
185 | ||
186 | void SwitchOnFillNeutralInMixedEvent() { fFillNeutralEventMixPool = kTRUE ; } | |
187 | void SwitchOffFillNeutralInMixedEvent(){ fFillNeutralEventMixPool = kFALSE ; } | |
188 | ||
189 | void SetM02Cut(Float_t min=0, Float_t max=10) { fM02MinCut = min ; fM02MaxCut = max ; } | |
190 | ||
191 | void SwitchOnCorrelationVzBin() { fCorrelVzBin = kTRUE ; } | |
192 | void SwitchOffCorrelationVzBin() { fCorrelVzBin = kFALSE ; } | |
193 | ||
194 | void SwitchOnFillPileUpHistograms() { fFillPileUpHistograms = kTRUE ; } | |
195 | void SwitchOffFillPileUpHistograms() { fFillPileUpHistograms = kFALSE ; } | |
196 | ||
197 | void SwitchOnFillHighMultiplicityHistograms() { fFillHighMultHistograms = kTRUE ; } | |
198 | void SwitchOffFillHighMultiplicityHistograms(){ fFillHighMultHistograms = kFALSE ; } | |
199 | ||
200 | void SwitchOnFillTriggerAODWithReferences() { fFillAODWithReferences = kTRUE ; } | |
201 | void SwitchOffFillTriggerAODWithReferences() { fFillAODWithReferences = kFALSE ; } | |
202 | ||
203 | void SwitchOnCheckNeutralClustersForLeading() { fCheckLeadingWithNeutralClusters = kTRUE ; } | |
204 | void SwitchOffCheckNeutralClustersForLeading(){ fCheckLeadingWithNeutralClusters = kFALSE ; } | |
205 | ||
206 | void SwitchOnFillEtaGapHistograms() { fFillEtaGapsHisto = kTRUE ; } | |
207 | void SwitchOffFillEtaGapHistograms() { fFillEtaGapsHisto = kFALSE ; } | |
208 | ||
209 | void SwitchOnFillPtImbalancePerPtABinHistograms() { fFillMomImbalancePtAssocBinsHisto = kTRUE ; } | |
210 | void SwitchOffFillPtImbalancePerPtABinHistograms() { fFillMomImbalancePtAssocBinsHisto = kFALSE ; } | |
211 | ||
212 | void SetMCGenType(Int_t min = 0, Int_t max = 6) { if(min >= 0 && min < 7) fMCGenTypeMin = min ; | |
213 | if(max >= 0 && max < 7) fMCGenTypeMax = max ; } | |
214 | ||
215 | private: | |
216 | ||
217 | Bool_t fFillAODWithReferences; // Add to the trigger particle AOD the reference to the tracks or neutrals in correlation. | |
218 | Bool_t fCheckLeadingWithNeutralClusters;// Compare the trigger candidate to Leading pT with the clusters pT, by default only charged | |
219 | Float_t fMaxAssocPt ; // Maximum associated hadron pt | |
220 | Float_t fMinAssocPt ; // Minimum associated hadron pt | |
221 | Double_t fDeltaPhiMaxCut ; // Minimum Delta Phi Gamma-Hadron | |
222 | Double_t fDeltaPhiMinCut ; // Maximum Delta Phi Gamma-Hadron | |
223 | Bool_t fSelectIsolated ; // Select only trigger particles isolated | |
224 | Bool_t fMakeSeveralUE ; // Do analysis for several underlying events contribution | |
225 | Double_t fUeDeltaPhiMaxCut ; // Minimum Delta Phi Gamma-Underlying Hadron | |
226 | Double_t fUeDeltaPhiMinCut ; // Maximum Delta Phi Gamma-Underlying Hadron | |
227 | TString fPi0AODBranchName; // Name of AOD branch with pi0, not trigger | |
228 | Bool_t fNeutralCorr ; // switch the analysis with neutral particles | |
229 | Bool_t fPi0Trigger ; // switch the analysis with decay photon from pi0 trigger | |
230 | Bool_t fDecayTrigger ; // switch the analysis with decay photon from photon trigger | |
231 | Bool_t fMakeAbsoluteLeading ; // requesting absolute leading triggers | |
232 | Bool_t fMakeNearSideLeading ; // requesting near side leading (+-90ยบ from trigger particle) triggers | |
233 | Int_t fLeadingTriggerIndex ; // Store here per event the trigger index, to avoid too many loops | |
234 | Bool_t fHMPIDCorrelation ; // Correlate with particles on HMPID or its acceptance | |
235 | Bool_t fFillBradHisto ; // DPhi histograms calculated differently | |
236 | Int_t fNAssocPtBins ; // Number of associated pT bins under study | |
237 | Float_t fAssocPtBinLimit[20] ; // Associated pT under study | |
238 | Bool_t fCorrelVzBin ; // Fill one histogram per vz bin | |
239 | ||
240 | TList ** fListMixTrackEvents ; //![GetNCentrBin()*GetNZvertBin()*GetNRPBin()] Containers for tracks in stored events for mixing | |
241 | TList ** fListMixCaloEvents ; //![GetNCentrBin()*GetNZvertBin()*GetNRPBin()] Containers for calo clusters in stored events for mixing | |
242 | ||
243 | Bool_t fUseMixStoredInReader; // Signal if in the current event the pool was filled | |
244 | Bool_t fFillNeutralEventMixPool; // Add clusters to pool if requested | |
245 | ||
246 | Float_t fM02MaxCut ; // Study photon clusters with l0 smaller than cut | |
247 | Float_t fM02MinCut ; // Study photon clusters with l0 larger than cut | |
248 | ||
249 | Bool_t fFillPileUpHistograms; // Fill pile-up related histograms | |
250 | Bool_t fFillHighMultHistograms; // Histograms with centrality and event plane for triggers pT | |
251 | ||
252 | Bool_t fSelectLeadingHadronAngle; // Select events with leading particle within a range | |
253 | Float_t fMinLeadHadPhi; // Minimum angle between the trigger and leading hadron | |
254 | Float_t fMaxLeadHadPhi; // Maximum ange between the trigger and leading hadron | |
255 | Float_t fMinLeadHadPt; // Minimum pT of leading hadron | |
256 | Float_t fMaxLeadHadPt; // Maximum pT of leading hadron | |
257 | ||
258 | Bool_t fFillEtaGapsHisto; // Fill azimuthal correlation histograms in 2 eta gaps, |eta|>0.8 and |eta|<0.01 | |
259 | Bool_t fFillMomImbalancePtAssocBinsHisto; // momentum imbalance histograms in bins of pT associated | |
260 | ||
261 | Int_t fMCGenTypeMin; // Of the 7 possible types, select those between fMCGenTypeMin and fMCGenTypeMax | |
262 | Int_t fMCGenTypeMax; // Of the 7 possible types, select those between fMCGenTypeMin and fMCGenTypeMax | |
263 | ||
264 | //Histograms | |
265 | ||
266 | //trigger particles | |
267 | TH1F * fhPtTriggerInput; //! pT distribution of trigger particles before selection | |
268 | TH1F * fhPtTriggerSSCut; //! pT distribution of trigger particles after shower shape selection | |
269 | TH1F * fhPtTriggerIsoCut; //! pT distribution of trigger particles after isolation cut selection | |
270 | TH1F * fhPtTriggerFidCut; //! pT distribution of trigger particles after fiducial selection | |
271 | TH1F * fhPtTrigger; //! pT distribution of trigger particles | |
272 | TH1F * fhPtTriggerVtxBC0; //! pT distribution of trigger particles | |
273 | TH1F * fhPtTriggerPileUp[7]; //! pT distribution of trigger particles | |
274 | TH2F * fhPtTriggerVzBin; //! pT distribution of trigger particles vs vz bin | |
275 | TH2F * fhPtTriggerBin; //! pT distribution of trigger particles, vs mixing bin | |
276 | TH2F * fhPhiTrigger; //! phi distribution vs pT of trigger particles | |
277 | TH2F * fhEtaTrigger; //! eta distribution vs pT of trigger particles | |
278 | ||
279 | TH1F * fhPtTriggerMC[7]; //! pT distribution of trigger particles, check the origin of the cluster : "Photon","Pi0","Pi0Decay","EtaDecay","OtherDecay","Electron","Hadron" | |
280 | ||
281 | TH2F * fhPtTriggerCentrality; //! pT distribution of trigger particles vs centrality | |
282 | TH2F * fhPtTriggerEventPlane; //! pT distribution of trigger particles vs centrality | |
283 | TH2F * fhTriggerEventPlaneCentrality; //! event plane vs centrality for trigger particles | |
284 | ||
285 | TH1F * fhPtTriggerMixed; //! pT distribution of trigger particles, used in mixing | |
286 | TH2F * fhPtTriggerMixedVzBin; //! pT distribution of trigger particles, used in mixing, vs vz bin | |
287 | TH2F * fhPtTriggerMixedBin; //! pT distribution of trigger particles vs mixing bin | |
288 | TH2F * fhPhiTriggerMixed; //! phi distribution vs pT of trigger particles, used in mixing | |
289 | TH2F * fhEtaTriggerMixed; //! eta distribution vs pT of trigger particles, used in mixing | |
290 | ||
291 | // Leading hadron in the opposite side of the trigger | |
292 | TH2F * fhPtLeadingOppositeHadron; //! pT trigger : pT distribution of leading hadron oposite to trigger | |
293 | TH2F * fhPtDiffPhiLeadingOppositeHadron; //! pT trigger : difference phi distribution of leading hadron oposite and trigger | |
294 | TH2F * fhPtDiffEtaLeadingOppositeHadron; //! pT trigger: difference eta distribution of leading hadron oposite and trigger | |
295 | ||
296 | //trigger-charged histograms | |
297 | TH2F * fhDeltaPhiDeltaEtaCharged ; //! differences of eta and phi between trigger and charged hadrons | |
298 | TH2F * fhPhiCharged ; //! Phi distribution of charged particles | |
299 | TH2F * fhEtaCharged ; //! Eta distribution of charged particles | |
300 | TH2F * fhDeltaPhiCharged ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT | |
301 | TH2F * fhDeltaEtaCharged ; //! Difference of charged particle eta and trigger particle eta as function of trigger particle pT | |
302 | TH2F * fhDeltaPhiChargedPt ; //! Difference of charged particle phi and trigger particle phi as function of charged particle pT | |
303 | TH2F * fhDeltaPhiUeChargedPt ; //! Difference of charged particle from underlying events phi and trigger particle phi as function of charged particle pT | |
304 | TH1F * fhUePart; //! UE particles distribution vs pt trig | |
305 | TH2F * fhXECharged ; //! Trigger particle -charged hadron momentum imbalance histogram | |
306 | TH2F * fhXECharged_Cone2 ; //! Trigger particle -charged hadron momentum imbalance histogram in cone2 (5pi/6-7pi/6) | |
307 | TH2F * fhXEUeCharged ; //! Trigger particle -underlying charged hadron momentum imbalance histogram | |
308 | TH2F * fhXEPosCharged ; //! Trigger particle -positive charged hadron momentum imbalance histogram | |
309 | TH2F * fhXENegCharged ; //! Trigger particle -negative charged hadron momentum imbalance histogram | |
310 | TH2F * fhPtHbpXECharged ; //! Trigger particle -charged hadron momentum HBP histogram | |
311 | TH2F * fhPtHbpXECharged_Cone2 ; //! Trigger particle -charged hadron momentum HBP histogram in cone2 (5pi/6-7pi/6) | |
312 | TH2F * fhPtHbpXEUeCharged ; //! Trigger particle -underlying charged hadron momentum HBP histogram | |
313 | TH2F * fhZTCharged ; //! Trigger particle -charged hadron momentum imbalance histogram | |
314 | TH2F * fhZTUeCharged ; //! Trigger particle -underlying charged hadron momentum imbalance histogram | |
315 | TH2F * fhZTPosCharged ; //! Trigger particle -positive charged hadron momentum imbalance histogram | |
316 | TH2F * fhZTNegCharged ; //! Trigger particle -negative charged hadron momentum imbalance histogram | |
317 | TH2F * fhPtHbpZTCharged ; //! Trigger particle -charged hadron momentum HBP histogram | |
318 | TH2F * fhPtHbpZTUeCharged ; //! Trigger particle -underlying charged hadron momentum HBP histogram | |
319 | ||
320 | TH2F * fhXEChargedMC[7] ; //! Trigger particle -charged hadron momentum imbalance histogram, check the origin of the cluster : decay photon (pi0, eta, other), merged photon (pi0), hadron, rest of photons (prompt, FSR, ISR) | |
321 | TH2F * fhDeltaPhiChargedMC[7] ; //! Trigger particle -charged hadron delta phi histogram, check the origin of the cluster : decay photon (pi0, eta, other), merged photon (pi0), hadron, rest of photons (prompt, FSR, ISR) | |
322 | ||
323 | TH2F * fhDeltaPhiDeltaEtaChargedPtA3GeV;//! differences of eta and phi between trigger and charged hadrons, pTa > 3 GeV | |
324 | TH2F * fhDeltaPhiChargedPtA3GeV ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT, pTa > 3 GeV | |
325 | TH2F * fhDeltaEtaChargedPtA3GeV ; //! Difference of charged particle eta and trigger particle eta as function of trigger particle pT, pTa > 3 GeV | |
326 | ||
327 | // Events tagged as pileup by SDD,EMCal, or combination | |
328 | TH2F * fhDeltaPhiChargedPileUp[7] ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT | |
329 | TH2F * fhDeltaEtaChargedPileUp[7] ; //! Difference of charged particle eta and trigger particle eta as function of trigger particle pT | |
330 | TH2F * fhDeltaPhiChargedPtA3GeVPileUp[7] ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT, pTa > 3 GeV | |
331 | TH2F * fhDeltaEtaChargedPtA3GeVPileUp[7] ; //! Difference of charged particle eta and trigger particle eta as function of trigger particle pT, pTa > 3 GeV | |
332 | TH2F * fhXEChargedPileUp[7] ; //! Trigger particle -charged hadron momentum imbalance histogram | |
333 | TH2F * fhXEUeChargedPileUp[7] ; //! Trigger particle -charged hadron momentum imbalance histogram | |
334 | TH2F * fhZTChargedPileUp[7] ; //! Trigger particle -charged hadron momentum imbalance histogram | |
335 | TH2F * fhZTUeChargedPileUp[7] ; //! Trigger particle -charged hadron momentum imbalance histogram | |
336 | TH2F * fhPtTrigChargedPileUp[7] ; //! trigger and correlated particl pt, to be used for mean value for kt | |
337 | ||
338 | TH2F * fhDeltaPhiChargedOtherBC ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT | |
339 | TH2F * fhDeltaPhiChargedPtA3GeVOtherBC ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT, pTa > 3 GeV | |
340 | TH2F * fhXEChargedOtherBC ; //! Trigger particle -charged hadron momentum imbalance histogram | |
341 | TH2F * fhXEUeChargedOtherBC ; //! Trigger particle -charged hadron momentum imbalance histogram | |
342 | TH2F * fhZTChargedOtherBC ; //! Trigger particle -charged hadron momentum imbalance histogram | |
343 | TH2F * fhZTUeChargedOtherBC ; //! Trigger particle -charged hadron momentum imbalance histogram | |
344 | TH2F * fhPtTrigChargedOtherBC ; //! trigger and correlated particl pt, to be used for mean value for kt | |
345 | ||
346 | TH2F * fhDeltaPhiChargedBC0 ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT | |
347 | TH2F * fhDeltaPhiChargedPtA3GeVBC0 ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT, pTa > 3 GeV | |
348 | TH2F * fhXEChargedBC0 ; //! Trigger particle -charged hadron momentum imbalance histogram | |
349 | TH2F * fhXEUeChargedBC0 ; //! Trigger particle -charged hadron momentum imbalance histogram | |
350 | TH2F * fhZTChargedBC0 ; //! Trigger particle -charged hadron momentum imbalance histogram | |
351 | TH2F * fhZTUeChargedBC0 ; //! Trigger particle -charged hadron momentum imbalance histogram | |
352 | TH2F * fhPtTrigChargedBC0 ; //! trigger and correlated particl pt, to be used for mean value for kt | |
353 | ||
354 | TH2F * fhDeltaPhiChargedVtxBC0 ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT | |
355 | TH2F * fhDeltaPhiChargedPtA3GeVVtxBC0 ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT, pTa > 3 GeV | |
356 | TH2F * fhXEChargedVtxBC0 ; //! Trigger particle -charged hadron momentum imbalance histogram | |
357 | TH2F * fhXEUeChargedVtxBC0 ; //! Trigger particle -charged hadron momentum imbalance histogram | |
358 | TH2F * fhZTChargedVtxBC0 ; //! Trigger particle -charged hadron momentum imbalance histogram | |
359 | TH2F * fhZTUeChargedVtxBC0 ; //! Trigger particle -charged hadron momentum imbalance histogram | |
360 | TH2F * fhPtTrigChargedVtxBC0 ; //! trigger and correlated particl pt, to be used for mean value for kt | |
361 | ||
362 | //if several UE calculation is on, most useful for jet-jet events contribution | |
363 | TH2F * fhDeltaPhiUeLeftCharged ; //! Difference of charged particle from underlying events phi and trigger particle phi as function of charged particle pT | |
364 | TH2F * fhDeltaPhiUeLeftUpCharged; //! Difference of charged particle from underlying events phi and trigger particle phi | |
365 | TH2F * fhDeltaPhiUeRightUpCharged; //! Difference of charged particle from underlying events phi and trigger particle phi | |
366 | TH2F * fhDeltaPhiUeLeftDownCharged; //! Difference of charged particle from underlying events phi and trigger particle phi | |
367 | TH2F * fhDeltaPhiUeRightDownCharged; //! Difference of charged particle from underlying events phi and trigger particle phi | |
368 | TH2F * fhXEUeLeftCharged ; //! Trigger particle -underlying charged hadron momentum imbalance histogram | |
369 | TH2F * fhXEUeLeftUpCharged ; //! Trigger particle -underlying charged hadron momentum imbalance histogram | |
370 | TH2F * fhXEUeRightUpCharged ; //! Trigger particle -underlying charged hadron momentum imbalance histogram | |
371 | TH2F * fhXEUeLeftDownCharged ; //! Trigger particle -underlying charged hadron momentum imbalance histogram | |
372 | TH2F * fhXEUeRightDownCharged ; //! Trigger particle -underlying charged hadron momentum imbalance histogram | |
373 | TH2F * fhPtHbpXEUeLeftCharged ; //! Trigger particle -underlying charged hadron momentum HBP histogram | |
374 | TH2F * fhZTUeLeftCharged ; //! Trigger particle -underlying charged hadron momentum imbalance histogram | |
375 | TH2F * fhPtHbpZTUeLeftCharged ; //! Trigger particle -underlying charged hadron momentum HBP histogram | |
376 | ||
377 | //for pout and kt extraction | |
378 | TH2F * fhPtTrigPout ; //! Pout =associated pt*sin(delta phi) distribution vs trigger pt | |
379 | TH2F * fhPtTrigCharged ; //! trigger and correlated particl pt, to be used for mean value for kt | |
380 | ||
381 | //if different multiplicity analysis asked | |
382 | TH2F ** fhDeltaPhiChargedMult ; //![GetNCentrBin()] differences of phi between trigger and charged hadrons: multiplicity bin | |
383 | TH2F ** fhDeltaEtaChargedMult ; //![GetNCentrBin()] differences of eta between trigger and charged hadrons: multiplicity bin | |
384 | TH2F ** fhXEMult ; //![GetNCentrBin()] Trigger particle -charged hadron momentum imbalance histogram: multiplicity bin | |
385 | TH2F ** fhXEUeMult ; //![GetNCentrBin()] Trigger particle -UE charged hadron momentum imbalance histogram: multiplicity bin | |
386 | TH2F ** fhZTMult ; //![GetNCentrBin()] Trigger particle -charged hadron momentum imbalance histogram: multiplicity bin | |
387 | TH2F ** fhZTUeMult ; //![GetNCentrBin()] Trigger particle -UE charged hadron momentum imbalance histogram: multiplicity bin | |
388 | ||
389 | TH2F * fhAssocPtBkg; //! Trigger pT vs associated pT for background | |
390 | TH2F ** fhDeltaPhiDeltaEtaAssocPtBin; //![fNAssocPtBins*GetNZvertBin()] Difference of charged particle phi and trigger particle phi as function eta difference, for different associated bins | |
391 | TH2F ** fhDeltaPhiAssocPtBin; //![fNAssocPtBins*GetNZvertBin()] Trigger pT vs dPhi for different associated pt and vz bins | |
392 | TH2F ** fhDeltaPhiAssocPtBinDEta08; //![fNAssocPtBins*GetNZvertBin()] Trigger pT vs dPhi for different associated pt and vz bins for Delta eta > 0.8 | |
393 | TH2F ** fhDeltaPhiAssocPtBinDEta0 ; //![fNAssocPtBins*GetNZvertBin()] Trigger pT vs dPhi for different associated pt and vz bins for Delta eta = 0 | |
394 | TH2F ** fhDeltaPhiAssocPtBinHMPID; //![fNAssocPtBins*GetNZvertBin()] Trigger pT vs dPhi for different associated pt and vz bins, track with HMPID | |
395 | TH2F ** fhDeltaPhiAssocPtBinHMPIDAcc; //![fNAssocPtBins*GetNZvertBin()] Trigger pT vs dPhi for different associated pt and vz bins, track with HMPIDAcc | |
396 | TH2F ** fhDeltaPhiBradAssocPtBin; //![fNAssocPtBins*GetNZvertBin()] Trigger pT vs dPhi Brad (?) for different associated pt bins | |
397 | TH2F * fhDeltaPhiBrad; //! Trigger pT vs dPhi Brad (?) for different associated pt bins | |
398 | TH2F ** fhXEAssocPtBin ; //![fNAssocPtBins] Trigger pT vs xE for different associated pt bins | |
399 | TH2F ** fhZTAssocPtBin ; //![fNAssocPtBins] Trigger pT vs zT for different associated pt bins | |
400 | TH2F ** fhXEVZ ; //![GetNZvertBin()] Trigger pT vs xE for different vz bins | |
401 | TH2F ** fhZTVZ ; //![GetNZvertBin()] Trigger pT vs zT for different vz bins | |
402 | ||
403 | //trigger-neutral histograms | |
404 | TH2F * fhDeltaPhiDeltaEtaNeutral ; //! differences of eta and phi between trigger and neutral hadrons (pi0) | |
405 | TH2F * fhPhiNeutral ; //! Phi distribution of neutral particles | |
406 | TH2F * fhEtaNeutral ; //! Eta distribution of neutral particles | |
407 | TH2F * fhDeltaPhiNeutral ; //! Difference of neutral particle phi and trigger particle phi as function of trigger particle pT | |
408 | TH2F * fhDeltaEtaNeutral ; //! Difference of neutral particle eta and trigger particle eta as function of trigger particle pT | |
409 | TH2F * fhDeltaPhiNeutralPt ; //! Difference of neutral particle phi and trigger particle phi as function of neutral particle particle pT | |
410 | TH2F * fhDeltaPhiUeNeutralPt ; //! Difference of neutral particle phi and trigger particle phi as function of neutral particle particle pT | |
411 | TH2F * fhXENeutral ; //! Trigger particle - neutral hadron momentum imbalance histogram | |
412 | TH2F * fhXEUeNeutral ; //! Trigger particle - neutral hadron momentum imbalance histogram | |
413 | TH2F * fhPtHbpXENeutral ; //! Trigger particle - neutral particle momentum HBP histogram | |
414 | TH2F * fhPtHbpXEUeNeutral ; //! Trigger particle - underlying neutral hadron momentum HBP histogram | |
415 | TH2F * fhZTNeutral ; //! Trigger particle - neutral hadron momentum imbalance histogram | |
416 | TH2F * fhZTUeNeutral ; //! Trigger particle - neutral hadron momentum imbalance histogram | |
417 | TH2F * fhPtHbpZTNeutral ; //! Trigger particle - neutral particle momentum HBP histogram | |
418 | TH2F * fhPtHbpZTUeNeutral ; //! Trigger particle - underlying neutral hadron momentum HBP histogram | |
419 | ||
420 | // If several UE calculation is on, | |
421 | TH2F * fhDeltaPhiUeLeftNeutral ; //! Difference of charged particle from underlying events phi and trigger particle phi as function of neutral particle pT | |
422 | TH2F * fhXEUeLeftNeutral ; //! Trigger particle -underlying neutral hadron momentum imbalance histogram | |
423 | TH2F * fhPtHbpXEUeLeftNeutral ; //! Trigger particle -underlying neutral hadron momentum HBP histogram | |
424 | TH2F * fhZTUeLeftNeutral ; //! Trigger particle -underlying neutral hadron momentum imbalance histogram | |
425 | TH2F * fhPtHbpZTUeLeftNeutral ; //! Trigger particle -underlying neutral hadron momentum HBP histogram | |
426 | ||
427 | //for decay photon trigger correlation | |
428 | TH2F * fhPtPi0DecayRatio ; //! for pi0 pt and ratio of decay photon pt | |
429 | TH2F * fhDeltaPhiDecayCharged ; //! Difference of charged particle phi and decay trigger | |
430 | TH2F * fhXEDecayCharged ; //! Trigger particle (decay from pi0)-charged hadron momentum imbalance histogram | |
431 | TH2F * fhZTDecayCharged ; //! Trigger particle (decay from pi0)-charged hadron momentum imbalance histogram | |
432 | ||
433 | TH2F * fhDeltaPhiDecayNeutral ; //! Difference of neutral particle phi and decay trigger | |
434 | TH2F * fhXEDecayNeutral ; //! Trigger particle (decay from pi0)-neutral hadron momentum imbalance histogram | |
435 | TH2F * fhZTDecayNeutral ; //! Trigger particle (decay from pi0)-neutral hadron momentum imbalance histogram | |
436 | ||
437 | TH2F ** fhDeltaPhiDecayChargedAssocPtBin;//![fNAssocPtBins*GetNZvertBin()] Tagged as decay Trigger pT vs dPhi for different associated pt bins | |
438 | ||
439 | // If the data is MC, correlation with generated particles | |
440 | // check the origin of the cluster : decay photon (pi0, eta, other), merged photon (pi0), | |
441 | // hadron, rest of photons (prompt, FSR, ISR) | |
442 | TH1F * fhMCPtTrigger[7]; //! MC pure pT distribution of trigger particles | |
443 | TH2F * fhMCPhiTrigger[7]; //! MC pure Phi distribution of trigger particles | |
444 | TH2F * fhMCEtaTrigger[7]; //! MC pure Eta distribution of trigger particles | |
445 | TH1F * fhMCPtTriggerNotLeading[7]; //! MC pure pT distribution of trigger not leading particles | |
446 | TH2F * fhMCPhiTriggerNotLeading[7]; //! MC pure Phi distribution of trigger not leading particles | |
447 | TH2F * fhMCEtaTriggerNotLeading[7]; //! MC pure Eta distribution of trigger not leading particles | |
448 | TH2F * fhMCEtaCharged[7]; //! MC pure particles charged primary pt vs eta (both associated) | |
449 | TH2F * fhMCPhiCharged[7]; //! MC pure particles charged primary pt vs phi (both associated) | |
450 | TH2F * fhMCDeltaEtaCharged[7]; //! MC pure particles charged trigger primary pt vs delta eta (associated-trigger) | |
451 | TH2F * fhMCDeltaPhiCharged[7]; //! MC pure particles charged trigger primary pt vs delta phi (associated-trigger) | |
452 | TH2F * fhMCDeltaPhiDeltaEtaCharged[7]; //! MC pure particles charged associated primary pt vs delta phi (associated-trigger), in away side | |
453 | TH2F * fhMCDeltaPhiChargedPt[7]; //! MC pure particles charged delta phi vs delta eta (associated-trigger) | |
454 | TH2F * fhMCPtXECharged[7]; //! MC pure particles charged trigger primary pt vs xE | |
455 | TH2F * fhMCPtXEUeCharged[7]; //! MC pure particles charged trigger primary pt vs xE (underlying event) | |
456 | TH2F * fhMCPtXEUeLeftCharged[7]; //! MC pure particles charged trigger primary pt vs xE (underlying event,left cone) | |
457 | TH2F * fhMCPtHbpXECharged[7]; //! MC pure particles charged trigger primary pt vs ln(1/xE) | |
458 | TH2F * fhMCPtHbpXEUeCharged[7]; //! MC pure particles charged trigger primary pt vs ln(1/xE) (underlying event) | |
459 | TH2F * fhMCPtHbpXEUeLeftCharged[7]; //! MC pure particles charged trigger primary pt vs ln(1/xE) (underlying event, left cone) | |
460 | TH1F * fhMCUePart[7]; //! MC pure UE particles distribution vs pt trig | |
461 | TH2F * fhMCPtZTCharged[7]; //! MC pure particles charged trigger primary pt vs zT | |
462 | TH2F * fhMCPtZTUeCharged[7]; //! MC pure particles charged trigger primary pt vs zT (underlying event) | |
463 | TH2F * fhMCPtZTUeLeftCharged[7]; //! MC pure particles charged trigger primary pt vs zT (underlying event, left cone) | |
464 | TH2F * fhMCPtHbpZTCharged[7]; //! MC pure particles charged trigger primary pt vs ln(1/zT) | |
465 | TH2F * fhMCPtHbpZTUeCharged[7]; //! MC pure particles charged trigger primary pt vs ln(1/zT) (underlying event) | |
466 | TH2F * fhMCPtHbpZTUeLeftCharged[7]; //! MC pure particles charged trigger primary pt vs ln(1/zT) (underlying event, left cone) | |
467 | TH2F * fhMCPtTrigPout[7]; //! MC pure particles charged trigger primary pt vs pOut | |
468 | TH2F * fhMCPtAssocDeltaPhi[7]; //! MC pure particles charged associated primary pt vs delta phi (associated-trigger) | |
469 | ||
470 | // Mixing | |
471 | TH1I * fhNEventsTrigger; //! number of analyzed triggered events | |
472 | TH2F * fhNtracksMB; //! total number of tracks in MB events | |
473 | TH2F * fhNclustersMB; //! total number of clusters in MB events | |
474 | TH2F * fhMixDeltaPhiCharged ; //! Difference of charged particle phi and trigger particle phi as function of trigger particle pT | |
475 | TH2F * fhMixDeltaPhiDeltaEtaCharged ; //! Difference of charged particle phi and trigger particle phi as function eta difference | |
476 | TH2F * fhMixXECharged; //! xE for mixed event | |
477 | TH2F * fhMixXEUeCharged; //! xE for mixed event in Ue region | |
478 | TH2F * fhMixHbpXECharged; //! ln(1/xE) for mixed event | |
479 | TH2F ** fhMixDeltaPhiChargedAssocPtBin; //![fNAssocPtBins*GetNZvertBin()] Difference of charged particle phi and trigger particle phi as function of trigger particle pT, for different associated bins | |
480 | TH2F ** fhMixDeltaPhiChargedAssocPtBinDEta08; //![fNAssocPtBins*GetNZvertBin()] Difference of charged particle phi and trigger particle phi as function of trigger particle pT, for different associated bins, delta eta > 0.8 | |
481 | TH2F ** fhMixDeltaPhiChargedAssocPtBinDEta0; //![fNAssocPtBins*GetNZvertBin()] Difference of charged particle phi and trigger particle phi as function of trigger particle pT, for different associated bins, delta eta = 0 | |
482 | TH2F ** fhMixDeltaPhiDeltaEtaChargedAssocPtBin; //![fNAssocPtBins*GetNZvertBin()] Difference of charged particle phi and trigger particle phi as function eta difference, for different associated bins | |
483 | ||
484 | TH1I * fhEventBin; //! Number of triggers in a particular event bin (cen,vz,rp) | |
485 | TH1I * fhEventMixBin; //! Number of triggers mixed in a particular bin (cen,vz,rp) | |
486 | TH1I * fhEventMBBin; //! Number of MB events in a particular bin (cen,vz,rp) | |
487 | ||
488 | AliAnaParticleHadronCorrelation( const AliAnaParticleHadronCorrelation & ph) ; // cpy ctor | |
489 | AliAnaParticleHadronCorrelation & operator = (const AliAnaParticleHadronCorrelation & ph) ; // cpy assignment | |
490 | ||
491 | ClassDef(AliAnaParticleHadronCorrelation,34) | |
492 | } ; | |
493 | ||
494 | ||
495 | #endif //ALIANAPARTICLEHADRONCORRELATION_H | |
496 | ||
497 | ||
498 |