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992b14a7 | 1 | #ifndef ALIANAINSIDECLUSTERINVARIANTMASS_H |
2 | #define ALIANAINSIDECLUSTERINVARIANTMASS_H | |
3 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
4 | * See cxx source for full Copyright notice */ | |
992b14a7 | 5 | |
6 | //_________________________________________________________________________ | |
7 | // | |
8 | // Split clusters with some criteria and calculate invariant mass | |
9 | // to identify them as pi0 or conversion | |
10 | // | |
11 | // | |
12 | //-- Author: Gustavo Conesa (LPSC-Grenoble) | |
13 | //_________________________________________________________________________ | |
14 | ||
15 | ||
16 | // --- ROOT system --- | |
17 | class TList ; | |
18 | class TObjString; | |
19 | class TLorentzVector; | |
20 | ||
21 | // --- ANALYSIS system --- | |
5c46c992 | 22 | class AliAODCaloCluster; |
23 | ||
745913ae | 24 | #include "AliAnaCaloTrackCorrBaseClass.h" |
992b14a7 | 25 | |
745913ae | 26 | class AliAnaInsideClusterInvariantMass : public AliAnaCaloTrackCorrBaseClass { |
992b14a7 | 27 | |
28 | public: | |
3c1d9afb | 29 | |
992b14a7 | 30 | AliAnaInsideClusterInvariantMass() ; // default ctor |
31 | virtual ~AliAnaInsideClusterInvariantMass() { ; } //virtual dtor | |
992b14a7 | 32 | |
33 | TObjString * GetAnalysisCuts(); | |
34 | ||
35 | TList * GetCreateOutputObjects(); | |
3c1d9afb | 36 | |
992b14a7 | 37 | void Init(); |
38 | ||
39 | void InitParameters(); | |
40 | ||
41 | void MakeAnalysisFillHistograms() ; | |
992b14a7 | 42 | |
71e3889f | 43 | void Print(const Option_t * opt) const; |
992b14a7 | 44 | |
71e3889f | 45 | void SetCalorimeter(TString & det) { fCalorimeter = det ; } |
46 | ||
47 | void SetM02Cut(Float_t min=0, Float_t max=10) { fM02MinCut = min ; fM02MaxCut = max ; } | |
992b14a7 | 48 | |
71e3889f | 49 | void SetMinNCells(Int_t cut) { fMinNCells = cut ; } |
2cb134fb | 50 | |
51 | void SetMinBadChannelDistance(Float_t cut) { fMinBadDist = cut ; } | |
992b14a7 | 52 | |
883411b2 | 53 | void SwitchOnFillAngleHistograms() { fFillAngleHisto = kTRUE ; } |
54 | void SwitchOffFillAngleHistograms() { fFillAngleHisto = kFALSE ; } | |
55 | ||
56 | void SwitchOnFillExtraSSHistograms() { fFillSSExtraHisto = kTRUE ; } | |
57 | void SwitchOffFillExtraSSHistograms() { fFillSSExtraHisto = kFALSE ; } | |
8e81c2cf | 58 | |
59 | void SwitchOnFillTMResidualHistograms() { fFillTMResidualHisto = kTRUE ; } | |
60 | void SwitchOffFillTMResidualHistograms() { fFillTMResidualHisto = kFALSE ; } | |
61 | ||
2a77f6f4 | 62 | void SwitchOnMCFractionHistograms() { fFillMCFractionHisto = kTRUE ; } |
63 | void SwitchOffMCFractionHistograms() { fFillMCFractionHisto = kFALSE ; } | |
64 | ||
65 | ||
992b14a7 | 66 | //For histograms |
c5693f62 | 67 | enum mcTypes { kmcPhoton = 1, kmcConversion = 2, kmcPi0 = 3, |
de7d73e6 | 68 | kmcEta = 4, kmcElectron = 5, kmcHadron = 6, kmcPi0Conv = 7 }; |
992b14a7 | 69 | |
70 | private: | |
71 | ||
5c46c992 | 72 | TString fCalorimeter ; // Calorimeter where the gamma is searched |
3c1d9afb | 73 | Float_t fM02MaxCut ; // Study clusters with l0 smaller than cut |
74 | Float_t fM02MinCut ; // Study clusters with l0 larger than cut | |
75 | Int_t fMinNCells ; // Study clusters with ncells larger than cut | |
76 | Float_t fMinBadDist ; // Minimal distance to bad channel to accept cluster | |
243c2909 | 77 | |
883411b2 | 78 | Bool_t fFillAngleHisto; // Fill splitted clusters angle histograms |
8e81c2cf | 79 | Bool_t fFillTMResidualHisto ; // Fill track matching histos, residuals |
80 | Bool_t fFillSSExtraHisto ; // Fill shower shape extra histos | |
2a77f6f4 | 81 | Bool_t fFillMCFractionHisto ; // Fill MC energy fraction histos |
82 | ||
992b14a7 | 83 | //Histograms |
84 | ||
de7d73e6 | 85 | TH2F * fhMassNLocMax1[8][2] ; //! Mass of 2 highest energy cells when 1 local max vs E, 1-6 for different MC particle types |
86 | TH2F * fhMassNLocMax2[8][2] ; //! Mass of 2 cells local maxima vs E, 1-6 for different MC particle types | |
87 | TH2F * fhMassNLocMaxN[8][2] ; //! Mass of >2 cells local maxima vs E, 1-6 for different MC particle types | |
5c46c992 | 88 | |
de7d73e6 | 89 | TH2F * fhAsymNLocMax1[8][2] ; //! Asymmetry of 2 highest energy cells when 1 local max vs E, 1-6 for different MC particle types |
90 | TH2F * fhAsymNLocMax2[8][2] ; //! Asymmetry of 2 cells local maxima vs E, 1-6 for different MC particle types | |
91 | TH2F * fhAsymNLocMaxN[8][2] ; //! Asymmetry of >2 cells local maxima vs E, 1-6 for different MC particle types | |
2a77f6f4 | 92 | |
e671adc2 | 93 | TH2F * fhSplitEFractionvsAsyNLocMax1[2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 1 vs |A| |
94 | TH2F * fhSplitEFractionvsAsyNLocMax2[2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 2 vs |A| | |
95 | TH2F * fhSplitEFractionvsAsyNLocMaxN[2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima > 2 vs |A| | |
96 | ||
77cadd95 | 97 | TH2F * fhMassM02CutNLocMax1 ; //! M02(E) selection, not matched, Mass of split clusters, NLM = 1 |
98 | TH2F * fhMassM02CutNLocMax2 ; //! M02(E) selection, not matched, Mass of split clusters, NLM = 1 | |
99 | TH2F * fhMassM02CutNLocMaxN ; //! M02(E) selection, not matched, Mass of split clusters, NLM > 2 | |
2a77f6f4 | 100 | |
77cadd95 | 101 | TH2F * fhAsymM02CutNLocMax1 ; //! M02(E) selection, not matched, energy asymmetry of split clusters, NLM = 1 |
102 | TH2F * fhAsymM02CutNLocMax2 ; //! M02(E) selection, not matched, energy asymmetry of split clusters, NLM = 2 | |
103 | TH2F * fhAsymM02CutNLocMaxN ; //! M02(E) selection, not matched, energy asymmetry of split clusters, NLM > 2 | |
e671adc2 | 104 | |
77cadd95 | 105 | TH2F * fhMassSplitECutNLocMax1 ; //! 85% of split energy, not matched, Mass of split clusters, NLM = 1 |
106 | TH2F * fhMassSplitECutNLocMax2 ; //! 85% of split energy, not matched, Mass of split clusters, NLM = 1 | |
107 | TH2F * fhMassSplitECutNLocMaxN ; //! 85% of split energy, not matched, Mass of split clusters, NLM > 2 | |
667432ef | 108 | |
de7d73e6 | 109 | TH2F * fhMassM02NLocMax1[8][2] ; //! Mass of splitted clusters when 1 local max vs M02, for E > 8 GeV, 1-6 for different MC particle types |
110 | TH2F * fhMassM02NLocMax2[8][2] ; //! Mass of splitted clusters when 2 local max vs M02, for E > 8 GeV, 1-6 for different MC particle types | |
111 | TH2F * fhMassM02NLocMaxN[8][2] ; //! Mass of splitted clusters when >2 local max vs M02, for E > 8 GeV, 1-6 for different MC particle types | |
0137016b | 112 | |
b8eb40fc | 113 | TH2F * fhMassM02NLocMax1Ebin[4] ; //! Mass of splitted clusters when 1 local max vs M02, 4 E bins, neutral clusters |
114 | TH2F * fhMassM02NLocMax2Ebin[4] ; //! Mass of splitted clusters when 2 local max vs M02, 4 E bins, neutral clusters | |
115 | TH2F * fhMassM02NLocMaxNEbin[4] ; //! Mass of splitted clusters when >2 local max vs M02, 4 E bins, neutral clusters | |
116 | ||
117 | TH2F * fhMassAsyNLocMax1Ebin[4] ; //! Mass of Mass of splitted clusters when 1 local max vs asymmetry, 4 E bins, neutral clusters | |
118 | TH2F * fhMassAsyNLocMax2Ebin[4] ; //! Mass of Mass of splitted clusters when 2 local max vs asymmetry, 4 E bins, neutral clusters | |
119 | TH2F * fhMassAsyNLocMaxNEbin[4] ; //! Mass of Mass of splitted clusters when >2 local max vs asymmetry, 4 E bins, neutral clusters | |
120 | ||
121 | TH2F * fhAsyMCGenRecoNLocMax1EbinPi0[4] ; //! Generated vs reconstructed asymmetry of splitted clusters from pi0 when 1 local max, 4 E bins, neutral clusters | |
122 | TH2F * fhAsyMCGenRecoNLocMax2EbinPi0[4] ; //! Generated vs reconstructed asymmetry of splitted clusters from pi0 when 2 local max, 4 E bins, neutral clusters | |
123 | TH2F * fhAsyMCGenRecoNLocMaxNEbinPi0[4] ; //! Generated vs reconstructed asymmetry of splitted clusters from pi0 when >2 local max, 4 E bins, neutral clusters | |
7b686344 | 124 | |
de7d73e6 | 125 | TH2F * fhMassDispEtaNLocMax1[8][2] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, for E > 8 GeV, 1-6 for different MC particle types |
126 | TH2F * fhMassDispEtaNLocMax2[8][2] ; //! Mass of 2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types | |
127 | TH2F * fhMassDispEtaNLocMaxN[8][2] ; //! Mass of >2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types | |
d2655d46 | 128 | |
e671adc2 | 129 | TH2F * fhMassDispEtaNLocMax1Ebin[4] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, 4 E bins, neutral clusters |
130 | TH2F * fhMassDispEtaNLocMax2Ebin[4] ; //! Mass of 2 cells local maxima, vs M02, 4 E bins, neutral clusters | |
131 | TH2F * fhMassDispEtaNLocMaxNEbin[4] ; //! Mass of >2 cells local maxima, vs M02, 4 E bins, neutral clusters | |
d2655d46 | 132 | |
de7d73e6 | 133 | TH2F * fhMassDispPhiNLocMax1[8][2] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, for E > 8 GeV, 1-6 for different MC particle types |
134 | TH2F * fhMassDispPhiNLocMax2[8][2] ; //! Mass of 2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types | |
135 | TH2F * fhMassDispPhiNLocMaxN[8][2] ; //! Mass of >2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types | |
d2655d46 | 136 | |
e671adc2 | 137 | TH2F * fhMassDispPhiNLocMax1Ebin[4] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, 4 E bins, neutral clusters |
138 | TH2F * fhMassDispPhiNLocMax2Ebin[4] ; //! Mass of 2 cells local maxima, vs M02, 4 E bins, neutral clusters | |
139 | TH2F * fhMassDispPhiNLocMaxNEbin[4] ; //! Mass of >2 cells local maxima, vs M02, 4 E bins, neutral clusters | |
d2655d46 | 140 | |
de7d73e6 | 141 | TH2F * fhMassDispAsyNLocMax1[8][2] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, for E > 8 GeV, 1-6 for different MC particle types |
142 | TH2F * fhMassDispAsyNLocMax2[8][2] ; //! Mass of 2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types | |
143 | TH2F * fhMassDispAsyNLocMaxN[8][2] ; //! Mass of >2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types | |
d2655d46 | 144 | |
e671adc2 | 145 | TH2F * fhMassDispAsyNLocMax1Ebin[4] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, 4 E bins, neutral clusters |
146 | TH2F * fhMassDispAsyNLocMax2Ebin[4] ; //! Mass of 2 cells local maxima, vs M02, 4 E bins, neutral clusters | |
147 | TH2F * fhMassDispAsyNLocMaxNEbin[4] ; //! Mass of >2 cells local maxima, vs M02, 4 E bins, neutral clusters | |
d2655d46 | 148 | |
de7d73e6 | 149 | TH2F * fhNLocMax [8][2] ; //! Number of maxima in cluster vs E, 1-6 for different MC particle types |
150 | TH2F * fhNLocMaxM02Cut[8][2] ; //! Number of maxima in cluster vs E, 1-6 for different MC particle types, after SS cut | |
5c46c992 | 151 | |
de7d73e6 | 152 | TH2F * fhM02NLocMax1 [8][2] ; //! M02 vs E for N max in cluster = 1, 1-6 for different MC particle types |
153 | TH2F * fhM02NLocMax2 [8][2] ; //! M02 vs E for N max in cluster = 2, 1-6 for different MC particle types | |
154 | TH2F * fhM02NLocMaxN [8][2] ; //! M02 vs E for N max in cluster > 2, 1-6 for different MC particle types | |
8e81c2cf | 155 | |
e671adc2 | 156 | TH2F * fhMCAsymM02NLocMax1MCPi0Ebin[4] ; //! M02 vs decay asymmetry for N max in cluster = 1, for 4 energy bins |
157 | TH2F * fhMCAsymM02NLocMax2MCPi0Ebin[4] ; //! M02 vs decay asymmetry for N max in cluster = 2, for 4 energy bins | |
158 | TH2F * fhMCAsymM02NLocMaxNMCPi0Ebin[4] ; //! M02 vs decay asymmetry for N max in cluster > 2, for 4 energy bins | |
8e81c2cf | 159 | |
de7d73e6 | 160 | TH2F * fhMCGenFracNLocMax1[8][2] ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster = 1, 1-6 for different MC particle types |
161 | TH2F * fhMCGenFracNLocMax2[8][2] ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster = 2, 1-6 for different MC particle types | |
162 | TH2F * fhMCGenFracNLocMaxN[8][2] ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster > 2, 1-6 for different MC particle types | |
667432ef | 163 | |
b8eb40fc | 164 | TH2F * fhMCGenFracAfterCutsNLocMax1MCPi0 ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster = 1, MCPi0 after M02 and asymmetry cut |
165 | TH2F * fhMCGenFracAfterCutsNLocMax2MCPi0 ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster = 2, MCPi0, after M02 and asymmetry cut | |
166 | TH2F * fhMCGenFracAfterCutsNLocMaxNMCPi0 ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster > 2, MCPi0, after M02 and asymmetry cut | |
667432ef | 167 | |
de7d73e6 | 168 | TH2F * fhMCGenSplitEFracNLocMax1[8][2] ; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster = 1, 1-6 for different MC particle types |
169 | TH2F * fhMCGenSplitEFracNLocMax2[8][2] ; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster = 2, 1-6 for different MC particle types | |
170 | TH2F * fhMCGenSplitEFracNLocMaxN[8][2] ; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster > 2, 1-6 for different MC particle types | |
667432ef | 171 | |
172 | TH2F * fhMCGenSplitEFracAfterCutsNLocMax1MCPi0; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster = 1, 1-6 for different MC particle types | |
173 | TH2F * fhMCGenSplitEFracAfterCutsNLocMax2MCPi0; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster = 2, 1-6 for different MC particle types | |
174 | TH2F * fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster > 2, 1-6 for different MC particle types | |
bb2d339b | 175 | |
de7d73e6 | 176 | TH2F * fhMCGenEFracvsSplitEFracNLocMax1[8][2] ; //! E generated particle / E reconstructed vs E1+E2 reconstructed / E reconstructed for N max in cluster = 1, MC pi0 |
177 | TH2F * fhMCGenEFracvsSplitEFracNLocMax2[8][2] ; //! E generated particle / E reconstructed vs E1+E2 reconstructed / E reconstructed for N max in cluster = 2, MC pi0 | |
178 | TH2F * fhMCGenEFracvsSplitEFracNLocMaxN[8][2] ; //! E generated particle / E reconstructed vs E1+E2 reconstructed / E reconstructed for N max in cluster > 2, MC pi0 | |
bb2d339b | 179 | |
de7d73e6 | 180 | TH2F * fhMCGenEvsSplitENLocMax1[8][2] ; //! E generated particle vs E1+E2 for N max in cluster = 1, 1-6 for different MC particle types |
181 | TH2F * fhMCGenEvsSplitENLocMax2[8][2] ; //! E generated particle vs E1+E2 for N max in cluster = 2, 1-6 for different MC particle types | |
182 | TH2F * fhMCGenEvsSplitENLocMaxN[8][2] ; //! E generated particle vs E1+E2 for N max in cluster > 2, 1-6 for different MC particle types | |
bb2d339b | 183 | |
de7d73e6 | 184 | TH2F * fhMCGenFracNLocMaxEbin[8][4] ; //! NLM vs E generated particle / E reconstructed vs E reconstructed 1-6 for different MC particle types, not matched to track |
185 | TH2F * fhMCGenFracNLocMaxEbinMatched[8][4] ; //! NLM vs E generated particle / E reconstructed vs E reconstructed 1-6 for different MC particle types, matched to track | |
53f2c382 | 186 | |
de7d73e6 | 187 | TH2F * fhM02MCGenFracNLocMax1Ebin[8][4] ; //! M02 vs E generated particle / E reconstructed vs E reconstructed for N max in cluster = 1, 1-6 for different MC particle types, not track matched |
188 | TH2F * fhM02MCGenFracNLocMax2Ebin[8][4] ; //! M02 vs E generated particle / E reconstructed vs E reconstructed for N max in cluster = 2, 1-6 for different MC particle types, not track matched | |
189 | TH2F * fhM02MCGenFracNLocMaxNEbin[8][4] ; //! M02 vs E generated particle / E reconstructed vs E reconstructed for N max in cluster > 2, 1-6 for different MC particle types, not track matched | |
8e81c2cf | 190 | |
de7d73e6 | 191 | TH2F * fhMassMCGenFracNLocMax1Ebin[8][4] ; //! Mass vs E generated particle / E reconstructed vs E reconstructed for N max in cluster = 1, 1-6 for different MC particle types, not track matched |
192 | TH2F * fhMassMCGenFracNLocMax2Ebin[8][4] ; //! Mass vs E generated particle / E reconstructed vs E reconstructed for N max in cluster = 2, 1-6 for different MC particle types, not track matched | |
193 | TH2F * fhMassMCGenFracNLocMaxNEbin[8][4] ; //! Mass vs E generated particle / E reconstructed vs E reconstructed for N max in cluster > 2, 1-6 for different MC particle types, not track matched | |
8e81c2cf | 194 | |
de7d73e6 | 195 | TH2F * fhNCellNLocMax1[8][2] ; //! n cells in cluster vs E for N max in cluster = 1, 1-6 for different MC particle types |
196 | TH2F * fhNCellNLocMax2[8][2] ; //! n cells in cluster vs E for N max in cluster = 2, 1-6 for different MC particle types | |
197 | TH2F * fhNCellNLocMaxN[8][2] ; //! n cells in cluster vs E for N max in cluster > 2, 1-6 for different MC particle types | |
992b14a7 | 198 | |
c8710850 | 199 | TH2F * fhM02Pi0NLocMax1[8][2] ; //! M02 for Mass around pi0, N Local Maxima = 1 |
200 | TH2F * fhM02EtaNLocMax1[8][2] ; //! M02 for Mass around eta, N Local Maxima = 1 | |
201 | TH2F * fhM02ConNLocMax1[8][2] ; //! M02 for Mass around close to 0, N Local Maxima = 1 | |
202 | ||
203 | TH2F * fhM02Pi0NLocMax2[8][2] ; //! M02 for Mass around pi0, N Local Maxima = 2 | |
204 | TH2F * fhM02EtaNLocMax2[8][2] ; //! M02 for Mass around eta, N Local Maxima = 2 | |
205 | TH2F * fhM02ConNLocMax2[8][2] ; //! M02 for Mass around close to 0, N Local Maxima = 2 | |
5c46c992 | 206 | |
c8710850 | 207 | TH2F * fhM02Pi0NLocMaxN[8][2] ; //! M02 for Mass around pi0, N Local Maxima > 2 |
208 | TH2F * fhM02EtaNLocMaxN[8][2] ; //! M02 for Mass around eta, N Local Maxima > 2 | |
209 | TH2F * fhM02ConNLocMaxN[8][2] ; //! M02 for Mass around close to 0, N Local Maxima > 2 | |
fc01318e | 210 | |
c8710850 | 211 | TH2F * fhMassPi0NLocMax1[8][2] ; //! Mass for selected pi0, N Local Maxima = 1 |
212 | TH2F * fhMassEtaNLocMax1[8][2] ; //! Mass for selected around eta, N Local Maxima = 1 | |
213 | TH2F * fhMassConNLocMax1[8][2] ; //! Mass for selected around close to 0, N Local Maxima = 1 | |
e671adc2 | 214 | |
c8710850 | 215 | TH2F * fhMassPi0NLocMax2[8][2] ; //! Mass for selected around pi0, N Local Maxima = 2 |
216 | TH2F * fhMassEtaNLocMax2[8][2] ; //! Mass for selected around eta, N Local Maxima = 2 | |
217 | TH2F * fhMassConNLocMax2[8][2] ; //! Mass for selected around close to 0, N Local Maxima = 2 | |
bb2d339b | 218 | |
c8710850 | 219 | TH2F * fhMassPi0NLocMaxN[8][2] ; //! Mass for selected around pi0, N Local Maxima > 2 |
220 | TH2F * fhMassEtaNLocMaxN[8][2] ; //! Mass for selected around eta, N Local Maxima > 2 | |
221 | TH2F * fhMassConNLocMaxN[8][2] ; //! Mass for selected around close to 0, N Local Maxima > 2 | |
bb2d339b | 222 | |
74858845 | 223 | TH2F * fhMassAfterCutsNLocMax1[8][2] ; //! Mass after M02, asymmetry cuts for pi0, N Local Maxima = 1 |
224 | TH2F * fhMassAfterCutsNLocMax2[8][2] ; //! Mass after M02, asymmetry cuts for pi0, N Local Maxima = 2 | |
225 | TH2F * fhMassAfterCutsNLocMaxN[8][2] ; //! Mass after M02, asymmetry cuts for pi0, N Local Maxima > 2 | |
167f2534 | 226 | |
c8710850 | 227 | TH2F * fhAsyPi0NLocMax1[8][2] ; //! Asy for Mass around pi0, N Local Maxima = 1 |
228 | TH2F * fhAsyEtaNLocMax1[8][2] ; //! Asy for Mass around eta, N Local Maxima = 1 | |
229 | TH2F * fhAsyConNLocMax1[8][2] ; //! Asy for Mass around close to 0, N Local Maxima = 1 | |
bb2d339b | 230 | |
c8710850 | 231 | TH2F * fhAsyPi0NLocMax2[8][2] ; //! Asy for Mass around pi0, N Local Maxima = 2 |
232 | TH2F * fhAsyEtaNLocMax2[8][2] ; //! Asy for Mass around eta, N Local Maxima = 2 | |
233 | TH2F * fhAsyConNLocMax2[8][2] ; //! Asy for Mass around close to 0, N Local Maxima = 2 | |
fc01318e | 234 | |
c8710850 | 235 | TH2F * fhAsyPi0NLocMaxN[8][2] ; //! Asy for Mass around pi0, N Local Maxima > 2 |
236 | TH2F * fhAsyEtaNLocMaxN[8][2] ; //! Asy for Mass around eta, N Local Maxima > 2 | |
237 | TH2F * fhAsyConNLocMaxN[8][2] ; //! Asy for Mass around close to 0, N Local Maxima > 2 | |
e671adc2 | 238 | |
de7d73e6 | 239 | TH2F * fhSplitEFractionNLocMax1[8][2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 1 |
240 | TH2F * fhSplitEFractionNLocMax2[8][2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 2 | |
241 | TH2F * fhSplitEFractionNLocMaxN[8][2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima > 2 | |
667432ef | 242 | |
74858845 | 243 | TH2F * fhSplitEFractionAfterCutsNLocMax1[8][2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 1, after M02 and asymmetry cut |
244 | TH2F * fhSplitEFractionAfterCutsNLocMax2[8][2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 2, after M02 and asymmetry cut | |
245 | TH2F * fhSplitEFractionAfterCutsNLocMaxN[8][2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima > 2, after M02 and asymmetry cut | |
667432ef | 246 | |
de7d73e6 | 247 | TH2F * fhMassSplitEFractionNLocMax1Ebin[8][4] ; //! Mass vs sum of splitted cluster energy / cluster energy for N max in cluster = 1, 1-6 for different MC particle types, not track matched |
248 | TH2F * fhMassSplitEFractionNLocMax2Ebin[8][4] ; //! Mass vs sum of splitted cluster energy / cluster energy for N max in cluster = 2, 1-6 for different MC particle types, not track matched | |
249 | TH2F * fhMassSplitEFractionNLocMaxNEbin[8][4] ; //! Mass vs sum of splitted cluster energy / cluster energy for N max in cluster > 2, 1-6 for different MC particle types, not track matched | |
5094c724 | 250 | |
c8710850 | 251 | TH2F * fhAnglePairNLocMax1[2] ; //! pair opening angle vs E |
252 | TH2F * fhAnglePairNLocMax2[2] ; //! pair opening angle vs E | |
253 | TH2F * fhAnglePairNLocMaxN[2] ; //! pair opening angle vs E | |
254 | ||
255 | TH2F * fhAnglePairMassNLocMax1[2] ; //! pair opening angle vs Mass for E > 7 GeV | |
256 | TH2F * fhAnglePairMassNLocMax2[2] ; //! pair opening angle vs Mass for E > 7 GeV | |
257 | TH2F * fhAnglePairMassNLocMaxN[2] ; //! pair opening angle vs Mass for E > 7 GeV | |
258 | ||
259 | TH2F * fhTrackMatchedDEtaNLocMax1[8] ; //! Eta distance between track and cluster vs cluster E, 1 local maximum | |
260 | TH2F * fhTrackMatchedDPhiNLocMax1[8] ; //! Phi distance between track and cluster vs cluster E, 1 local maximum | |
261 | TH2F * fhTrackMatchedDEtaNLocMax2[8] ; //! Eta distance between track and cluster vs cluster E, 2 local maximum | |
262 | TH2F * fhTrackMatchedDPhiNLocMax2[8] ; //! Phi distance between track and cluster vs cluster E, 2 local maximum | |
263 | TH2F * fhTrackMatchedDEtaNLocMaxN[8] ; //! Eta distance between track and cluster vs cluster E, more than 2 local maximum | |
264 | TH2F * fhTrackMatchedDPhiNLocMaxN[8] ; //! Phi distance between track and cluster vs cluster E, more than 2 local maximum | |
265 | ||
17f5b4b6 | 266 | TH2F * fhCentralityPi0NLocMax1[8][2] ; //! Centrality for selected pi0, N Local Maxima = 1 |
267 | TH2F * fhCentralityEtaNLocMax1[8][2] ; //! Centrality for selected eta, N Local Maxima = 1 | |
268 | TH2F * fhCentralityPi0NLocMax2[8][2] ; //! Centrality for selected pi0, N Local Maxima = 2 | |
269 | TH2F * fhCentralityEtaNLocMax2[8][2] ; //! Centrality for selected eta, N Local Maxima = 2 | |
270 | TH2F * fhCentralityPi0NLocMaxN[8][2] ; //! Centrality for selected pi0, N Local Maxima > 2 | |
271 | TH2F * fhCentralityEtaNLocMaxN[8][2] ; //! Centrality for selected eta, N Local Maxima > 2 | |
c8710850 | 272 | |
273 | TH2F * fhEventPlanePi0NLocMax1 ; //! Event plane for selected pi0, N Local Maxima = 1 | |
274 | TH2F * fhEventPlaneEtaNLocMax1 ; //! Event plane for selected eta, N Local Maxima = 1 | |
275 | TH2F * fhEventPlanePi0NLocMax2 ; //! Event plane for selected pi0, N Local Maxima = 2 | |
276 | TH2F * fhEventPlaneEtaNLocMax2 ; //! Event plane for selected eta, N Local Maxima = 2 | |
277 | TH2F * fhEventPlanePi0NLocMaxN ; //! Event plane for selected pi0, N Local Maxima > 2 | |
278 | TH2F * fhEventPlaneEtaNLocMaxN ; //! Event plane for selected eta, N Local Maxima > 2 | |
279 | ||
243c2909 | 280 | |
2a77f6f4 | 281 | AliAnaInsideClusterInvariantMass( const AliAnaInsideClusterInvariantMass & split) ; // cpy ctor |
282 | AliAnaInsideClusterInvariantMass & operator = (const AliAnaInsideClusterInvariantMass & split) ; // cpy assignment | |
992b14a7 | 283 | |
c8710850 | 284 | ClassDef(AliAnaInsideClusterInvariantMass,19) |
992b14a7 | 285 | |
286 | } ; | |
287 | ||
288 | #endif //ALIANAINSIDECLUSTERINVARIANTMASS_H | |
289 | ||
290 | ||
291 |