1 #ifndef ALIANAPARTICLEISOLATION_H
2 #define ALIANAPARTICLEISOLATION_H
3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
6 //_________________________________________________________________________
8 // Class for the analysis of particle isolation
9 // Input is selected particles put in AOD branch (AliAODPWG4ParticleCorrelation)
11 // Class created from old AliPHOSGammaJet
12 // (see AliRoot versions previous Release 4-09)
14 //-- Author: Gustavo Conesa (INFN-LNF)
16 // --- ROOT system ---
21 // --- ANALYSIS system ---
22 #include "AliAnaCaloTrackCorrBaseClass.h"
23 class AliAODPWG4Particle;
24 class AliAODPWG4ParticleCorrelation ;
27 class AliAnaParticleIsolation : public AliAnaCaloTrackCorrBaseClass {
30 AliAnaParticleIsolation() ; // default ctor
31 virtual ~AliAnaParticleIsolation() { ; } //virtual dtor
33 // Main general methods
35 void CalculateCaloUEBand (AliAODPWG4ParticleCorrelation * pCandidate,
36 Float_t & etaBand, Float_t & phiBand) ;
37 void CalculateCaloCellUEBand(AliAODPWG4ParticleCorrelation * pCandidate,
38 Float_t & etaBand, Float_t & phiBand) ;
39 void CalculateTrackUEBand (AliAODPWG4ParticleCorrelation * pCandidate,
40 Float_t & etaBand, Float_t & phiBand) ;
42 void CalculateCaloSignalInCone (AliAODPWG4ParticleCorrelation * aodParticle, Float_t & coneptsumCluster) ;
43 void CalculateCaloCellSignalInCone(AliAODPWG4ParticleCorrelation * aodParticle, Float_t & coneptsumCell) ;
44 void CalculateTrackSignalInCone (AliAODPWG4ParticleCorrelation * aodParticle, Float_t & coneptsumTrack ) ;
47 void CalculateNormalizeUEBandPerUnitArea(AliAODPWG4ParticleCorrelation * pCandidate,
48 Float_t coneptsumCluster, Float_t coneptsumCell, Float_t coneptsumTrack,
49 Float_t &etaBandptsumTrackNorm, Float_t &etaBandptsumClusterNorm ) ;
51 TObjString * GetAnalysisCuts() ;
53 TList * GetCreateOutputObjects() ;
57 void InitParameters() ;
59 void MakeAnalysisFillAOD() ;
61 void MakeAnalysisFillHistograms() ;
64 void Print( const Option_t * opt ) const ;
66 //Analysis specific methods
68 void FillPileUpHistograms(Int_t clusterID) ;
70 void FillAcceptanceHistograms();
72 void FillTrackMatchingShowerShapeControlHistograms(AliAODPWG4ParticleCorrelation * pCandidate,
75 void MakeSeveralICAnalysis( AliAODPWG4ParticleCorrelation * ph ) ;
77 // Analysis Setters and Getters
79 TString GetCalorimeter() const { return fCalorimeter ; }
80 Int_t GetNCones() const { return fNCones ; }
81 Int_t GetNPtThresFrac() const { return fNPtThresFrac ; }
82 Float_t GetConeSizes(Int_t i) const { return fConeSizes[i] ; }
83 Float_t GetPtThresholds(Int_t i) const { return fPtThresholds[i] ; }
84 Float_t GetSumPtThresholds(Int_t i) const { return fSumPtThresholds[i]; }
85 Float_t GetPtFractions(Int_t i) const { return fPtFractions[i] ; }
87 void SetCalorimeter(TString & det) { fCalorimeter = det ; }
88 void SetNCones(Int_t ncs) { fNCones = ncs ; }
89 void SetNPtThresFrac(Int_t npt) { fNPtThresFrac = npt ; }
90 void SetConeSizes(Int_t i, Float_t r) { fConeSizes[i] = r ; }
91 void SetPtThresholds(Int_t i, Float_t pt) { fPtThresholds[i] = pt ; }
92 void SetPtFractions(Int_t i, Float_t pt) { fPtFractions[i] = pt ; }
93 void SetSumPtThresholds(Int_t i, Float_t pt){ fSumPtThresholds[i] = pt ; }
96 Bool_t IsReIsolationOn() const { return fReMakeIC ; }
97 void SwitchOnReIsolation() { fReMakeIC = kTRUE ; }
98 void SwitchOffReIsolation() { fReMakeIC = kFALSE ; }
100 Bool_t IsSeveralIsolationOn() const { return fMakeSeveralIC ; }
101 void SwitchOnSeveralIsolation() { fMakeSeveralIC = kTRUE ; }
102 void SwitchOffSeveralIsolation() { fMakeSeveralIC = kFALSE ; }
104 void SwitchOnFillPileUpHistograms() { fFillPileUpHistograms = kTRUE ; }
105 void SwitchOffFillPileUpHistograms() { fFillPileUpHistograms = kFALSE ; }
107 void SwitchOnTMHistoFill() { fFillTMHisto = kTRUE ; }
108 void SwitchOffTMHistoFill() { fFillTMHisto = kFALSE ; }
110 void SwitchOnSSHistoFill() { fFillSSHisto = kTRUE ; }
111 void SwitchOffSSHistoFill() { fFillSSHisto = kFALSE ; }
113 //Histogrammes setters and getters
115 void SetHistoPtSumRangeAndNBins(Float_t min, Float_t max, Int_t n) {
116 fHistoNPtSumBins = n ; fHistoPtSumMax = max ; fHistoPtSumMin = min ; }
118 Int_t GetHistoNPtSumBins() const { return fHistoNPtSumBins ; }
119 Float_t GetHistoPtSumMin() const { return fHistoPtSumMin ; }
120 Float_t GetHistoPtSumMax() const { return fHistoPtSumMax ; }
122 void SetHistoPtInConeRangeAndNBins(Float_t min, Float_t max, Int_t n) {
123 fHistoNPtInConeBins = n ; fHistoPtInConeMax = max ; fHistoPtInConeMin = min ; }
125 Int_t GetHistoNPtInConeBins() const { return fHistoNPtInConeBins; }
126 Float_t GetHistoPtInConeMin() const { return fHistoPtInConeMin ; }
127 Float_t GetHistoPtInConeMax() const { return fHistoPtInConeMax ; }
129 // For histograms in arrays, index in the array, corresponding to a particle
130 enum mcPTypes { kmcPPhoton = 0, kmcPPi0Decay = 1, kmcPOtherDecay = 2, kmcPOther = 3,
131 kmcPPrompt = 4, kmcPFragmentation = 5, kmcPISR = 6 };
135 TString fCalorimeter ; // Calorimeter where neutral particles in cone for isolation are;
136 Bool_t fReMakeIC ; // Do isolation analysis
137 Bool_t fMakeSeveralIC ; // Do analysis for different IC
138 Bool_t fFillPileUpHistograms; // Fill pile-up related histograms
139 Bool_t fFillTMHisto; // Fill track matching plots
140 Bool_t fFillSSHisto; // Fill Shower shape plots
142 // Analysis data members for multiple cones and pt thresholds
143 Int_t fNCones ; //! Number of cone sizes to test
144 Int_t fNPtThresFrac ; //! Number of ptThres and ptFrac to test
146 Float_t fConeSizes[5] ; //! Array with cones to test
147 Float_t fPtThresholds[5] ; //! Array with pt thresholds to test
148 Float_t fPtFractions[5] ; //! Array with pt thresholds to test frac
149 Float_t fSumPtThresholds[5] ; //! Array with pt thresholds to test frac
153 TH1F * fhEIso ; //! Number of isolated particles vs energy
154 TH1F * fhPtIso ; //! Number of isolated particles vs pT
155 TH2F * fhPtCentralityIso ; //! centrality vs pT
156 TH2F * fhPtEventPlaneIso ; //! event plane angle vs pT
157 TH2F * fhPtNLocMaxIso ; //! Number of isolated particles vs NLM in cluster
158 TH2F * fhPhiIso ; //! Phi of isolated particles
159 TH2F * fhEtaIso ; //! eta of isolated particles
160 TH2F * fhEtaPhiIso ; //! eta vs phi of isolated particles
161 TH2F * fhEtaPhiNoIso ; //! eta vs phi of not isolated leading particles
162 TH1F * fhENoIso ; //! Number of not isolated leading particles vs Energy
163 TH1F * fhPtNoIso ; //! Number of not isolated leading particles vs pT
164 TH2F * fhPtNLocMaxNoIso ; //! Number of not isolated particles vs NLM in cluster
165 TH1F * fhPtDecayIso ; //! Number of isolated Pi0 decay particles (invariant mass tag)
166 TH1F * fhPtDecayNoIso ; //! Number of not isolated Pi0 decay leading particles (invariant mass tag)
167 TH2F * fhEtaPhiDecayIso ; //! eta vs phi of isolated Pi0 decay particles
168 TH2F * fhEtaPhiDecayNoIso ; //! eta vs phi of not isolated leading Pi0 decay particles
170 TH2F * fhPtInCone ; //! Cluster/track Pt in the cone
171 TH2F * fhPtClusterInCone ; //! Cluster Pt in the cone
172 TH2F * fhPtCellInCone ; //! Cell amplitude in the cone
173 TH2F * fhPtTrackInCone ; //! Track Pt in the cone
174 TH2F * fhPtTrackInConeOtherBC ; //! Track Pt in the cone, tracks out of main BC Time window
175 TH2F * fhPtTrackInConeOtherBCPileUpSPD ; //! Track Pt in the cone, tracks out of main BC Time window
176 TH2F * fhPtTrackInConeBC0 ; //! Track Pt in the cone, tracks in BC=0
177 TH2F * fhPtTrackInConeVtxBC0 ; //! Track Pt in the cone, tracks in BC=0
178 TH2F * fhPtTrackInConeBC0PileUpSPD ; //! Track Pt in the cone, tracks in BC=0
179 TH2F * fhPtInConePileUp[7] ; //! Particle Pt in the cone, if event is from pile-up (SPD method)
180 TH2F * fhPtInConeCent ; //! Particle Pt in the cone versus centrality
181 TH2F * fhPerpConeSumPt ; //! Sum Pt in cone at the perpendicular phi region to trigger axis (phi +90)
182 TH2F * fhPtInPerpCone ; //! Particle Pt in cone at the perpendicular phi region to trigger axis (phi +90)
184 TH2F * fhEtaPhiInConeCluster ; //! Eta vs. phi of clusters in cone
185 TH2F * fhEtaPhiCluster ; //! Eta vs. phi of all clusters
186 TH2F * fhEtaPhiInConeTrack ; //! Eta vs. phi of tracks in cone
187 TH2F * fhEtaPhiTrack ; //! Eta vs. phi of all tracks
189 TH2F * fhEtaBandCluster ; //! Accumulated pT in Eta band to estimate UE in cone, only clusters
190 TH2F * fhPhiBandCluster ; //! Accumulated pT in Phi band to estimate UE in cone, only clusters
191 TH2F * fhEtaBandTrack ; //! Accumulated pT in Eta band to estimate UE in cone, only tracks
192 TH2F * fhPhiBandTrack ; //! Accumulated pT in Phi band to estimate UE in cone, only tracks
193 TH2F * fhEtaBandCell ; //! Accumulated pT in Eta band to estimate UE in cone, only cells
194 TH2F * fhPhiBandCell ; //! Accumulated pT in Phi band to estimate UE in cone, only cells
196 TH2F * fhConeSumPt ; //! Cluster and tracks Sum Pt Sum Pt in the cone
197 TH2F * fhConeSumPtCellTrack ; //! Cells and tracks Sum Pt Sum Pt in the cone
198 TH2F * fhConeSumPtCell ; //! Cells Sum Pt Sum Pt in the cone
199 TH2F * fhConeSumPtCluster ; //! Clusters Sum Pt Sum Pt in the cone
200 TH2F * fhConeSumPtTrack ; //! Tracks Sum Pt Sum Pt in the cone
201 TH2F * fhConeSumPtEtaBandUECluster; //! Cluster Sum Pt in the eta band for clusters, before normalization
202 TH2F * fhConeSumPtPhiBandUECluster; //! Cluster Sum Pt in the phi band for clusters, before normalization
203 TH2F * fhConeSumPtEtaBandUETrack; //! Track Sum Pt in the eta band for tracks , before normalization
204 TH2F * fhConeSumPtPhiBandUETrack; //! Track Sum Pt in the phi badn for tracks , before normalization
205 TH2F * fhConeSumPtEtaBandUECell; //! Cell Sum amplitude in the eta band for cells, before normalization
206 TH2F * fhConeSumPtPhiBandUECell; //! Cell Sum amplitude in the phi band for cells, before normalization
208 TH2F * fhConeSumPtTrigEtaPhi ; //! Cluster and tracks Sum Pt Sum Pt in the cone, per eta-phi bin of trigger,
209 TH2F * fhConeSumPtCellTrackTrigEtaPhi ; //! Cell and tracks Sum Pt Sum Pt in the cone, per eta-phi bin of trigger,
210 TH2F * fhConeSumPtEtaBandUEClusterTrigEtaPhi; //! Cluster Sum Pt in the eta band for clusters, per eta-phi bin of trigger,before normalization
211 TH2F * fhConeSumPtPhiBandUEClusterTrigEtaPhi; //! Cluster Sum Pt in the phi band for clusters, per eta-phi bin of trigger, before normalization
212 TH2F * fhConeSumPtEtaBandUETrackTrigEtaPhi; //! Track Sum Pt in the eta band for tracks , per eta-phi bin of trigger, before normalization
213 TH2F * fhConeSumPtPhiBandUETrackTrigEtaPhi; //! Track Sum Pt in the phi badn for tracks , per eta-phi bin of trigger, before normalization
214 TH2F * fhConeSumPtEtaBandUECellTrigEtaPhi; //! Cluster Sum amplitude in the eta band for cells, per eta-phi bin of trigger, before normalization
215 TH2F * fhConeSumPtPhiBandUECellTrigEtaPhi; //! Cluster Sum amplitude in the phi band for cells, per eta-phi bin of trigger, before normalization
217 TH2F * fhConeSumPtEtaUESub; //! Cluster and tracks Sum Pt in the cone after bkg subtraction, vs pT trigger
218 TH2F * fhConeSumPtPhiUESub; //! Cluster and tracks Sum Pt in the cone after bkg subtraction, vs pT trigger
219 TH2F * fhConeSumPtEtaUESubTrigEtaPhi; //! Cluster and tracks Sum Pt in the cone after bkg subtraction, vs eta-phi trigger
220 TH2F * fhConeSumPtPhiUESubTrigEtaPhi; //! Cluster and tracks Sum Pt in the cone after bkg subtraction, vs eta-phi trigger
222 TH2F * fhConeSumPtEtaUESubTrackCell; //! Cluster and tracks Sum Pt in the cone after bkg subtraction, vs pT trigger
223 TH2F * fhConeSumPtPhiUESubTrackCell; //! Cluster and tracks Sum Pt in the cone after bkg subtraction, vs pT trigger
224 TH2F * fhConeSumPtEtaUESubTrackCellTrigEtaPhi;//! Cluster and tracks Sum Pt in the cone after bkg subtraction, vs eta-phi trigger
225 TH2F * fhConeSumPtPhiUESubTrackCellTrigEtaPhi;//! Cluster and tracks Sum Pt in the cone after bkg subtraction, vs eta-phi trigger
227 TH2F * fhConeSumPtEtaUESubCluster; //! Cluster Sum Pt in the cone after bkg subtraction, vs pT trigger
228 TH2F * fhConeSumPtPhiUESubCluster; //! Cluster Sum Pt in the cone after bkg subtraction, vs pT trigger
229 TH2F * fhConeSumPtEtaUESubClusterTrigEtaPhi; //! Cluster Sum Pt in the cone after bkg subtraction, vs eta-phi trigger
230 TH2F * fhConeSumPtPhiUESubClusterTrigEtaPhi; //! Cluster Sum Pt in the cone after bkg subtraction, vs eta-phi trigger
232 TH2F * fhConeSumPtEtaUESubCell; //! Cell Sum amplitude in the cone after bkg subtraction, vs pT trigger
233 TH2F * fhConeSumPtPhiUESubCell; //! Cell Sum amplitude in the cone after bkg subtraction, vs pT trigger
234 TH2F * fhConeSumPtEtaUESubCellTrigEtaPhi; //! Cell Sum amplitude in the cone after bkg subtraction, vs eta-phi trigger
235 TH2F * fhConeSumPtPhiUESubCellTrigEtaPhi; //! Cell Sum amplitude in the cone after bkg subtraction, vs eta-phi trigger
237 TH2F * fhConeSumPtEtaUESubTrack; //! Track Sum Pt in the cone after bkg subtraction, vs pT trigger
238 TH2F * fhConeSumPtPhiUESubTrack; //! Track Sum Pt in the cone after bkg subtraction, vs pT trigger
239 TH2F * fhConeSumPtEtaUESubTrackTrigEtaPhi; //! Track Sum Pt in the cone after bkg subtraction, vs eta-phi trigger
240 TH2F * fhConeSumPtPhiUESubTrackTrigEtaPhi; //! Track Sum Pt in the cone after bkg subtraction, vs eta-phi trigger
242 TH2F * fhFractionTrackOutConeEta; //! Fraction of cone out of tracks acceptance in eta
243 TH2F * fhFractionTrackOutConeEtaTrigEtaPhi; //! Fraction of cone out of tracks acceptance in eta, vs trigger eta-phi
244 TH2F * fhFractionClusterOutConeEta; //! Fraction of cone out of clusters acceptance in eta
245 TH2F * fhFractionClusterOutConeEtaTrigEtaPhi; //! Fraction of cone out of clusters acceptance in eta, vs trigger eta-phi
246 TH2F * fhFractionClusterOutConePhi; //! Fraction of cone out of clusters acceptance in phi
247 TH2F * fhFractionClusterOutConePhiTrigEtaPhi; //! Fraction of cone out of clusters acceptance in phi, vs trigger eta-phi
249 TH2F * fhFractionCellOutConeEta; //! Fraction of cone out of cells acceptance in eta
250 TH2F * fhFractionCellOutConeEtaTrigEtaPhi; //! Fraction of cone out of cells acceptance in eta, vs trigger eta-phi
251 TH2F * fhFractionCellOutConePhi; //! Fraction of cone out of cells acceptance in phi
252 TH2F * fhFractionCellOutConePhiTrigEtaPhi; //! Fraction of cone out of cells acceptance in phi, vs trigger eta-phi
254 TH2F * fhConeSumPtClustervsTrack ; //! Cluster vs tracks Sum Pt Sum Pt in the cone
255 TH2F * fhConeSumPtEtaUESubClustervsTrack ; //! Cluster vs tracks Sum Pt Sum Pt in the cone, after subtraction in eta band
256 TH2F * fhConeSumPtPhiUESubClustervsTrack ; //! Cluster vs tracks Sum Pt Sum Pt in the cone, after subtraction in phi band
257 TH2F * fhConeSumPtCellvsTrack; //! Cell vs tracks Sum Pt Sum Pt in the cone
258 TH2F * fhConeSumPtEtaUESubCellvsTrack ; //! Cell vs tracks Sum Pt Sum Pt in the cone, after subtraction in eta band
259 TH2F * fhConeSumPtPhiUESubCellvsTrack ; //! Cell vs tracks Sum Pt Sum Pt in the cone, after subtraction in phi band
261 TH2F * fhEtaBandClustervsTrack ; //! Accumulated pT in Eta band to estimate UE in cone, clusters vs tracks
262 TH2F * fhPhiBandClustervsTrack ; //! Accumulated pT in Phi band to estimate UE in cone, clusters vs tracks
263 TH2F * fhEtaBandNormClustervsTrack ; //! Accumulated pT in Eta band to estimate UE in cone, normalized to cone size, clusters vs tracks
264 TH2F * fhPhiBandNormClustervsTrack ; //! Accumulated pT in Phi band to estimate UE in cone, normalized to cone size, clusters vs tracks
265 TH2F * fhEtaBandCellvsTrack ; //! Accumulated pT in Eta band to estimate UE in cone, cells vs tracks
266 TH2F * fhPhiBandCellvsTrack ; //! Accumulated pT in Phi band to estimate UE in cone, cells vs tracks
267 TH2F * fhEtaBandNormCellvsTrack ; //! Accumulated pT cell in Eta band to estimate UE in cone, normalized to cone size, clusters vs tracks
268 TH2F * fhPhiBandNormCellvsTrack ; //! Accumulated pT cell in Phi band to estimate UE in cone, normalized to cone
270 TH2F * fhConeSumPtSubvsConeSumPtTotPhiTrack; //! Tracks, phi band: sum pT in cone after bkg sub vs sum pT in cone before bkg sub
271 TH2F * fhConeSumPtSubNormvsConeSumPtTotPhiTrack; //! Tracks, phi band: sum pT in cone after bkg sub normalized by sum pT in cone before bkg sub vs sum pT in cone before bkg sub
272 TH2F * fhConeSumPtSubvsConeSumPtTotEtaTrack; //! Tracks, eta band: sum pT in cone after bkg sub vs sum pT in cone before bkg sub
273 TH2F * fhConeSumPtSubNormvsConeSumPtTotEtaTrack; //! Tracks, eta band: sum pT in cone after bkg sub normalized by sum pT in cone before bkg sub vs sum pT in cone before bkg sub
274 TH2F * fhConeSumPtSubvsConeSumPtTotPhiCluster; //! Clusters, phi band: sum pT in cone after bkg sub vs sum pT in cone before bkg sub
275 TH2F * fhConeSumPtSubNormvsConeSumPtTotPhiCluster; //! Clusters, phi band: sum pT in cone after bkg sub normalized by sum pT in cone before bkg sub vs sum pT in cone before bkg sub
276 TH2F * fhConeSumPtSubvsConeSumPtTotEtaCluster; //! Clusters, eta band: sum pT in cone after bkg sub vs sum pT in cone before bkg sub
277 TH2F * fhConeSumPtSubNormvsConeSumPtTotEtaCluster; //! Clusters, eta band: sum pT in cone after bkg sub normalized by sum pT in cone before bkg sub vs sum pT in cone before bkg sub
278 TH2F * fhConeSumPtSubvsConeSumPtTotPhiCell; //! Cells, phi band: sum pT in cone after bkg sub vs sum pT in cone before bkg sub
279 TH2F * fhConeSumPtSubNormvsConeSumPtTotPhiCell; //! Cells, phi band: sum pT in cone after bkg sub normalized by sum pT in cone before bkg sub vs sum pT in cone before bkg sub
280 TH2F * fhConeSumPtSubvsConeSumPtTotEtaCell; //! Cells, eta band: sum pT in cone after bkg sub vs sum pT in cone before bkg sub
281 TH2F * fhConeSumPtSubNormvsConeSumPtTotEtaCell; //! Cells, eta band: sum pT in cone after bkg sub normalized by sum pT in cone before bkg sub vs sum pT in cone before bkg sub
282 TH2F * fhConeSumPtVSUETracksEtaBand; //! fhConeSumPtVSUETracksEtaBand
283 TH2F * fhConeSumPtVSUETracksPhiBand; //! fhConeSumPtVSUETracksPhiBand
284 TH2F * fhConeSumPtVSUEClusterEtaBand; //! fhConeSumPtVSUEClusterEtaBand
285 TH2F * fhConeSumPtVSUEClusterPhiBand; //! fhConeSumPtVSUEClusterPhiBand
289 TH2F * fhEtaPrimMC [7]; //! Pt vs Eta of generated photon
290 TH1F * fhEPrimMC [7]; //! Number of generated photon vs E
291 TH1F * fhPtPrimMCiso[7]; //! Number of generated isolated photon vs pT
292 TH1F * fhPtIsoPrompt; //! Number of isolated prompt gamma
293 TH2F * fhPhiIsoPrompt; //! Phi of isolated prompt gamma
294 TH2F * fhEtaIsoPrompt; //! eta of isolated prompt gamma
295 TH1F * fhPtThresIsolatedPrompt[5][5]; //! Isolated prompt gamma with pt threshold
296 TH1F * fhPtFracIsolatedPrompt[5][5]; //! Isolated prompt gamma with pt frac
297 TH2F * fhPtSumIsolatedPrompt[5]; //! Isolated prompt gamma with threshold on cone pt sume
298 TH1F * fhPtIsoFragmentation; //! Number of isolated fragmentation gamma
299 TH2F * fhPhiIsoFragmentation; //! Phi of isolated fragmentation gamma
300 TH2F * fhEtaIsoFragmentation; //! eta of isolated fragmentation gamma
301 TH1F * fhPtThresIsolatedFragmentation[5][5]; //! Isolated fragmentation gamma with pt threshold
302 TH1F * fhPtFracIsolatedFragmentation[5][5]; //! Isolated fragmentation gamma with pt frac
303 TH2F * fhPtSumIsolatedFragmentation[5]; //! Isolated fragmentation gamma with threshold on cone pt sume
304 TH1F * fhPtIsoPi0; //! Number of isolated pi0 (2 gamma)
305 TH2F * fhPhiIsoPi0; //! Phi of isolated pi0 (2 gamma)
306 TH2F * fhEtaIsoPi0; //! eta of isolated pi0 (2 gamma)
307 TH1F * fhPtThresIsolatedPi0[5][5]; //! Isolated pi0 (2 gamma) with pt threshold
308 TH1F * fhPtFracIsolatedPi0[5][5]; //! Isolated pi0 (2 gamma) with pt frac
309 TH2F * fhPtSumIsolatedPi0[5]; //! Isolated pi0 (2 gamma) with threshold on cone pt sum
310 TH1F * fhPtIsoPi0Decay; //! Number of isolated pi0 decay gamma
311 TH2F * fhPhiIsoPi0Decay; //! Phi of isolated pi0 decay gamma
312 TH2F * fhEtaIsoPi0Decay; //! eta of isolated pi0 decay gamma
313 TH1F * fhPtThresIsolatedPi0Decay[5][5]; //! Isolated pi0 decay gamma with pt threshold
314 TH1F * fhPtFracIsolatedPi0Decay[5][5]; //! Isolated pi0 decay gamma with pt frac
315 TH2F * fhPtSumIsolatedPi0Decay[5]; //! Isolated pi0 decay gamma with threshold on cone pt sume
316 TH1F * fhPtIsoEtaDecay; //! Number of isolated eta decay gamma
317 TH2F * fhPhiIsoEtaDecay; //! Phi of isolated eta decay gamma
318 TH2F * fhEtaIsoEtaDecay; //! eta of isolated eta decay gamma
319 TH1F * fhPtThresIsolatedEtaDecay[5][5]; //! Isolated eta decay gamma with pt threshold
320 TH1F * fhPtFracIsolatedEtaDecay[5][5]; //! Isolated eta decay gamma with pt frac
321 TH2F * fhPtSumIsolatedEtaDecay[5]; //! Isolated eta fecay gamma with threshold on cone pt sume
322 TH1F * fhPtIsoOtherDecay; //! Number of isolated other decay gamma
323 TH2F * fhPhiIsoOtherDecay; //! Phi of isolated other decay gamma
324 TH2F * fhEtaIsoOtherDecay; //! eta of isolated other decay gamma
325 TH1F * fhPtThresIsolatedOtherDecay[5][5]; //! Isolated OtherDecay gamma with pt threshold
326 TH1F * fhPtFracIsolatedOtherDecay[5][5]; //! Isolated OtherDecay gamma with pt frac
327 TH2F * fhPtSumIsolatedOtherDecay[5]; //! Isolated OtherDecay gamma with threshold on cone pt sume
328 // TH1F * fhPtIsoConversion; //! Number of isolated Conversion gamma
329 // TH2F * fhPhiIsoConversion; //! Phi of isolated Conversion gamma
330 // TH2F * fhEtaIsoConversion; //! eta of isolated Conversion gamma
331 // TH1F * fhPtThresIsolatedConversion[5][5]; //! Isolated Conversion gamma with pt threshold
332 // TH1F * fhPtFracIsolatedConversion[5][5]; //! Isolated Conversion gamma with pt frac
333 // TH2F * fhPtSumIsolatedConversion[5]; //! Isolated Conversion gamma with threshold on cone pt sume
334 TH1F * fhPtIsoHadron; //! Number of isolated Hadron
335 TH2F * fhPhiIsoHadron; //! Phi of isolated Hadron
336 TH2F * fhEtaIsoHadron; //! eta of isolated Hadron
337 TH1F * fhPtThresIsolatedHadron[5][5]; //! Isolated Hadron gamma with pt threshold
338 TH1F * fhPtFracIsolatedHadron[5][5]; //! Isolated Hadron gamma with pt frac
339 TH2F * fhPtSumIsolatedHadron[5]; //! Isolated Hadron gamma with threshold on cone pt sume
341 // Multi Cut analysis Several IC
342 TH1F * fhPtNoIsoPi0; //! Number of not isolated leading pi0 (2 gamma)
343 TH1F * fhPtNoIsoPi0Decay; //! Number of not isolated leading pi0 decay gamma
344 TH1F * fhPtNoIsoEtaDecay; //! Number of not isolated leading eta decay gamma
345 TH1F * fhPtNoIsoOtherDecay; //! Number of not isolated leading other decay gamma
346 TH1F * fhPtNoIsoPrompt; //! Number of not isolated leading prompt gamma
347 TH1F * fhPtIsoMCPhoton; //! Number of isolated leading gamma
348 TH1F * fhPtNoIsoMCPhoton; //! Number of not isolated leading gamma
349 // TH1F * fhPtNoIsoConversion; //! Number of not isolated leading conversion gamma
350 TH1F * fhPtNoIsoFragmentation; //! Number of not isolated leading fragmentation gamma
351 TH1F * fhPtNoIsoHadron; //! Number of not isolated leading hadrons
353 TH2F * fhSumPtLeadingPt[5] ; //! Sum Pt in the cone
354 TH2F * fhPtLeadingPt[5] ; //! Particle Pt in the cone
355 TH2F * fhPerpSumPtLeadingPt[5] ; //! Sum Pt in the cone at the perpendicular phi region to trigger axis (phi +90)
356 TH2F * fhPerpPtLeadingPt[5]; //! Sum Pt in the cone at the perpendicular phi region to trigger axis (phi +90)
358 TH1F * fhPtThresIsolated[5][5] ; //! Isolated particle with pt threshold
359 TH1F * fhPtFracIsolated[5][5] ; //! Isolated particle with pt threshold frac
360 TH1F * fhPtSumIsolated[5][5] ; //! Isolated particle with threshold on cone pt sum
362 TH2F * fhEtaPhiPtThresIso[5][5] ; //! eta vs phi of isolated particles with pt threshold
363 TH2F * fhEtaPhiPtThresDecayIso[5][5] ; //! eta vs phi of isolated particles with pt threshold
364 TH1F * fhPtPtThresDecayIso[5][5] ; //! Number of isolated Pi0 decay particles (invariant mass tag) with pt threshold
366 TH2F * fhEtaPhiPtFracIso[5][5] ; //! eta vs phi of isolated particles with pt frac
367 TH2F * fhEtaPhiPtFracDecayIso[5][5] ; //! eta vs phi of isolated particles with pt frac
368 TH1F * fhPtPtFracDecayIso[5][5] ; //! Number of isolated Pi0 decay particles (invariant mass tag) with pt fra
370 TH2F * fhEtaPhiPtSumIso[5][5] ; //! eta vs phi of isolated particles with pt sum
371 TH2F * fhEtaPhiPtSumDecayIso[5][5] ; //! eta vs phi of isolated particles with pt sum
372 TH1F * fhPtPtSumDecayIso[5][5] ; //! Number of isolated Pi0 decay particles (invariant mass tag) with pt sum
374 TH2F * fhEtaPhiSumDensityIso[5][5]; //! Isolated particle with threshold on cone sum density
375 TH2F * fhEtaPhiSumDensityDecayIso[5][5]; //! Isolated particle with threshold on cone sum density
376 TH1F * fhPtSumDensityIso[5][5]; //! Isolated particle with threshold on cone sum density
377 TH1F * fhPtSumDensityDecayIso[5][5]; //! Isolated decay particle with threshold on cone sum density
379 TH1F * fhPtFracPtSumIso[5][5] ; //! Number of isolated Pi0 decay particles (invariant mass tag) with pt sum
380 TH1F * fhPtFracPtSumDecayIso[5][5] ; //! Number of isolated Pi0 decay particles (invariant mass tag) with pt sum
381 TH2F * fhEtaPhiFracPtSumIso[5][5]; //! Isolated particle with threshold on cone sum density
382 TH2F * fhEtaPhiFracPtSumDecayIso[5][5]; //! Isolated particle with threshold on cone sum density
384 // Track matching studies
385 TH2F * fhTrackMatchedDEta[2] ; //! Eta distance between track and cluster vs cluster E
386 TH2F * fhTrackMatchedDPhi[2] ; //! Phi distance between track and cluster vs cluster E
387 TH2F * fhTrackMatchedDEtaDPhi[2] ; //! Eta vs Phi distance between track and cluster, E cluster > 0.5 GeV
388 TH2F * fhdEdx[2] ; //! matched track dEdx vs cluster E
389 TH2F * fhEOverP[2]; //! matched track E cluster over P track vs cluster E, after dEdx cut
390 TH2F * fhTrackMatchedMCParticle[2]; //! Trace origin of matched particle
392 // Shower Shape histograms
393 TH2F * fhELambda0[2]; //! Shower shape of (non) isolated photons (do not apply SS cut previously)
394 TH2F * fhPtLambda0[2]; //! Shower shape of (non) isolated photons (do not apply SS cut previously)
395 TH2F * fhELambda1[2]; //! Shower shape of (non) isolated photons (do not apply SS cut previously)
396 TH2F * fhELambda0SSBkg; //! Shower shape of non isolated photons close to isolation threshold (do not apply SS cut previously)
397 TH2F * fhELambda0TRD[2]; //! Shower shape of (non) isolated photons, SM behind TRD (do not apply SS cut previously)
398 TH2F * fhPtLambda0TRD[2]; //! Shower shape of (non) isolated photons, SM behind TRD (do not apply SS cut previously)
399 TH2F * fhELambda1TRD[2]; //! Shower shape of (non) isolated photons, SM behind TRD (do not apply SS cut previously)
400 TH2F * fhELambda0MCPhoton[2]; //! Shower shape of (non) isolated photon candidates originated by particle photon not decay (do not apply SS cut previously)
401 TH2F * fhPtLambda0MCPhotonPrompt[2]; //! Shower shape of (non) isolated photon candidates originated by particle photon not decay (do not apply SS cut previously)
402 TH2F * fhPtLambda0MCPhotonFrag[2]; //! Shower shape of (non) isolated photon candidates originated by particle photon not decay (do not apply SS cut previously)
403 TH2F * fhELambda0MCPi0[2]; //! Shower shape of (non) isolated photon candidates originated by particle 2 merged pi0 photons (do not apply SS cut previously)
404 TH2F * fhELambda0MCPi0Decay[2]; //! Shower shape of (non) isolated photon candidates originated by particle pi0 decay photon (do not apply SS cut previously)
405 TH2F * fhELambda0MCEtaDecay[2]; //! Shower shape of (non) isolated photon candidates originated by particle eta decay photon (do not apply SS cut previously)
406 TH2F * fhELambda0MCOtherDecay[2]; //! Shower shape of (non) isolated photon candidates originated by particle other decay photon (do not apply SS cut previously)
407 TH2F * fhELambda0MCHadron[2]; //! Shower shape of (non) isolated photon candidates originated by particle other hadrons (do not apply SS cut previously)
410 TH2F * fhNLocMax[2]; //! number of maxima in selected clusters
411 TH2F * fhELambda0LocMax1[2] ; //! E vs lambda0 of selected cluster, 1 local maxima in cluster
412 TH2F * fhELambda1LocMax1[2] ; //! E vs lambda1 of selected cluster, 1 local maxima in cluster
413 TH2F * fhELambda0LocMax2[2] ; //! E vs lambda0 of selected cluster, 2 local maxima in cluster
414 TH2F * fhELambda1LocMax2[2] ; //! E vs lambda1 of selected cluster, 2 local maxima in cluster
415 TH2F * fhELambda0LocMaxN[2] ; //! E vs lambda0 of selected cluster, N>2 local maxima in cluster
416 TH2F * fhELambda1LocMaxN[2] ; //! E vs lambda1 of selected cluster, N>2 local maxima in cluster
419 TH1F * fhEIsoPileUp[7] ; //! Number of isolated particles
420 TH1F * fhPtIsoPileUp[7] ; //! Number of isolated particles
421 TH1F * fhENoIsoPileUp[7] ; //! Number of not isolated particles
422 TH1F * fhPtNoIsoPileUp[7] ; //! Number of not isolated particles
423 TH2F * fhTimeENoCut; //! time of cluster vs E, no cut
424 TH2F * fhTimeESPD; //! time of cluster vs E, IsSPDPileUp
425 TH2F * fhTimeESPDMulti; //! time of cluster vs E, IsSPDPileUpMulti
426 TH2F * fhTimeNPileUpVertSPD; //! time of cluster vs n pile-up vertices from SPD
427 TH2F * fhTimeNPileUpVertTrack; //! time of cluster vs n pile-up vertices from Tracks
428 TH2F * fhTimeNPileUpVertContributors; //! time of cluster vs n pile-up vertex from SPD contributors
429 TH2F * fhTimePileUpMainVertexZDistance; //! time of cluster vs difference of z main vertex and pile-up vertex
430 TH2F * fhTimePileUpMainVertexZDiamond; //! time of cluster vs difference of z diamond and pile-up vertex
432 //Histograms settings
433 Int_t fHistoNPtSumBins; // Number of bins in PtSum histograms
434 Float_t fHistoPtSumMax; // PtSum maximum in histogram
435 Float_t fHistoPtSumMin; // PtSum minimum in histogram
436 Int_t fHistoNPtInConeBins; // Number of bins in PtInCone histogram
437 Float_t fHistoPtInConeMax; // PtInCone maximum in histogram
438 Float_t fHistoPtInConeMin; // PtInCone maximum in histogram
440 AliAnaParticleIsolation( const AliAnaParticleIsolation & iso) ; // cpy ctor
441 AliAnaParticleIsolation & operator = (const AliAnaParticleIsolation & iso) ; // cpy assignment
443 ClassDef(AliAnaParticleIsolation,25)
447 #endif //ALIANAPARTICLEISOLATION_H