1 AliAnalysisTaskElecV2* ConfigHFEElecV2(Bool_t useMC){
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3 // HFE standard task configuration
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6 Bool_t kAnalyseTaggedTracks = kTRUE;
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8 AliHFEcuts *hfecuts = new AliHFEcuts("hfeCutsEMCAL","HFE Standard Cuts");
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9 hfecuts->CreateStandardCuts();
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10 hfecuts->SetMinNClustersTPC(100);
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11 hfecuts->SetMinRatioTPCclusters(0.6);
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12 hfecuts->SetTPCmodes(AliHFEextraCuts::kFound, AliHFEextraCuts::kFoundOverFindable);
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13 hfecuts->SetMinNClustersITS(3);
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14 hfecuts->SetCutITSpixel(AliHFEextraCuts::kFirst);
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15 hfecuts->SetCheckITSLayerStatus(kFALSE);
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16 hfecuts->SetVertexRange(10.);
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17 hfecuts->SetTOFPIDStep(kFALSE);
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18 hfecuts->SetPtRange(2, 50);
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19 hfecuts->SetMaxImpactParam(1,2);
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21 AliAnalysisTaskElecV2 *task = new AliAnalysisTaskElecV2("HFE v2");
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22 printf("task ------------------------ %p\n ", task);
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23 task->SetHFECuts(hfecuts);
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24 task->SetInvariantMassCut(0.05);
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27 AliHFEpid *pid = task->GetPID();
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28 if(useMC) pid->SetHasMCData(kTRUE);
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29 pid->AddDetector("TPC", 0);
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30 pid->AddDetector("EMCAL", 1);
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32 AliHFEpidEMCAL *emcpid = pid->AliHFEpid::GetDetPID(AliHFEpid::kEMCALpid);
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33 emcpid->SetEoPMax(1.2);
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34 emcpid->SetEoPMim(0.9);
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39 // Monte-Carlo needs modelling of the falling mean with momentum at low momentum
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40 // for high momentum it is consistent with a flat -0.94
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41 cutmodel = "[0]*TMath::Exp([1]*x) + [2] + [3]*x";
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42 Double_t paramsMC[4] = {0.7174, -1.588, -0.9395, 0.0246};
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43 for(int ipar = 0; ipar < 4; ipar++) params[ipar] = paramsMC[ipar];
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45 // Data is consistent with a flat 0.12
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47 //params[0] = -0.0015;
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49 //params[0] = -0.05; //sigma min
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50 params[0] = -1.0; //sigma min
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52 pid->ConfigureTPCdefaultCut(cutmodel, params,3.0);
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54 printf("*************************************\n");
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55 printf("Configuring standard Task:\n");
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56 // task->PrintStatus();
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58 printf("*************************************\n");
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