diff --git a/PWGCF/GenericFramework/Tasks/flowGfwLightIons.cxx b/PWGCF/GenericFramework/Tasks/flowGfwLightIons.cxx index fb654b6014a..7a74223e5ac 100644 --- a/PWGCF/GenericFramework/Tasks/flowGfwLightIons.cxx +++ b/PWGCF/GenericFramework/Tasks/flowGfwLightIons.cxx @@ -79,6 +79,8 @@ GFWCorrConfigs configs; std::vector multGlobalCorrCutPars; std::vector multPVCorrCutPars; std::vector multGlobalPVCorrCutPars; +std::vector multGlobalV0ACutPars; +std::vector multGlobalT0ACutPars; std::vector firstRunsOfFill; } // namespace o2::analysis::gfw @@ -134,6 +136,15 @@ struct FlowGfwLightIons { O2_DEFINE_CONFIGURABLE(cfgMultCorrHighCutFunction, std::string, "[0] + [1]*x + [2]*x*x + [3]*x*x*x + [4]*x*x*x*x + 3.*([5] + [6]*x + [7]*x*x + [8]*x*x*x + [9]*x*x*x*x)", "Functional for multiplicity correlation cut"); O2_DEFINE_CONFIGURABLE(cfgMultCorrLowCutFunction, std::string, "[0] + [1]*x + [2]*x*x + [3]*x*x*x + [4]*x*x*x*x - 3.*([5] + [6]*x + [7]*x*x + [8]*x*x*x + [9]*x*x*x*x)", "Functional for multiplicity correlation cut"); O2_DEFINE_CONFIGURABLE(cfgMultGlobalPVCorrCutFunction, std::string, "[0] + [1]*x + 3*([2] + [3]*x + [4]*x*x + [5]*x*x*x)", "Functional for global vs pv multiplicity correlation cut"); + struct : ConfigurableGroup { + O2_DEFINE_CONFIGURABLE(cfgMultGlobalASideCorrCutFunction, std::string, "[0]+[1]*x+[2]*x*x+[3]*x*x*x+[4]*x*x*x*x + [10]*([5]+[6]*x+[7]*x*x+[8]*x*x*x+[9]*x*x*x*x)", "Functional for global vs V0A multiplicity low correlation cut"); + Configurable> cfgMultGlobalV0ACutPars{"cfgMultGlobalV0ACutPars", std::vector{567.785, 172.715, 0.77888, -0.00693466, 1.40564e-05, 679.853, 66.8068, -0.444332, 0.00115002, -4.92064e-07}, "Global vs FV0A multiplicity cut parameter values"}; + Configurable> cfgMultGlobalT0ACutPars{"cfgMultGlobalT0ACutPars", std::vector{241.618, 61.8402, 0.348049, -0.00306078, 6.20357e-06, 315.235, 29.1491, -0.188639, 0.00044528, -9.08912e-08}, "Global vs FT0A multiplicity cut parameter values"}; + O2_DEFINE_CONFIGURABLE(cfgGlobalV0ALowSigma, float, -3, "Number of sigma deviations below expected value in global vs V0A correlation"); + O2_DEFINE_CONFIGURABLE(cfgGlobalV0AHighSigma, float, 4, "Number of sigma deviations above expected value in global vs V0A correlation"); + O2_DEFINE_CONFIGURABLE(cfgGlobalT0ALowSigma, float, -3., "Number of sigma deviations below expected value in global vs T0A correlation"); + O2_DEFINE_CONFIGURABLE(cfgGlobalT0AHighSigma, float, 4, "Number of sigma deviations above expected value in global vs T0A correlation"); + } cfgGlobalAsideCorrCuts; Configurable cfgGFWBinning{"cfgGFWBinning", {40, 16, 72, 300, 0, 3000, 0.2, 10.0, 0.2, 3.0, {0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1, 1.25, 1.5, 1.75, 2, 2.25, 2.5, 2.75, 3, 3.25, 3.5, 3.75, 4, 4.5, 5, 5.5, 6, 7, 8, 9, 10}, {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90}}, "Configuration for binning"}; Configurable cfgRegions{"cfgRegions", {{"refN", "refP", "refFull"}, {-0.8, 0.4, -0.8}, {-0.4, 0.8, 0.8}, {0, 0, 0}, {1, 1, 1}}, "Configurations for GFW regions"}; @@ -241,6 +252,10 @@ struct FlowGfwLightIons { TF1* fMultCutLow = nullptr; TF1* fMultCutHigh = nullptr; TF1* fMultPVGlobalCutHigh = nullptr; + TF1* fMultGlobalV0ACutLow = nullptr; + TF1* fMultGlobalV0ACutHigh = nullptr; + TF1* fMultGlobalT0ACutLow = nullptr; + TF1* fMultGlobalT0ACutHigh = nullptr; TF1* fPtDepDCAxy = nullptr; @@ -287,6 +302,8 @@ struct FlowGfwLightIons { o2::analysis::gfw::multGlobalCorrCutPars = cfgMultGlobalCutPars; o2::analysis::gfw::multPVCorrCutPars = cfgMultPVCutPars; o2::analysis::gfw::multGlobalPVCorrCutPars = cfgMultGlobalPVCutPars; + o2::analysis::gfw::multGlobalV0ACutPars = cfgGlobalAsideCorrCuts.cfgMultGlobalV0ACutPars; + o2::analysis::gfw::multGlobalT0ACutPars = cfgGlobalAsideCorrCuts.cfgMultGlobalT0ACutPars; o2::analysis::gfw::firstRunsOfFill = cfgFirstRunsOfFill; if (cfgTimeDependent && !std::is_sorted(o2::analysis::gfw::firstRunsOfFill.begin(), o2::analysis::gfw::firstRunsOfFill.end())) { std::sort(o2::analysis::gfw::firstRunsOfFill.begin(), o2::analysis::gfw::firstRunsOfFill.end()); @@ -479,6 +496,36 @@ struct FlowGfwLightIons { fMultCutHigh->SetParameters(&(o2::analysis::gfw::multGlobalCorrCutPars[0])); fMultPVGlobalCutHigh = new TF1("fMultPVGlobalCutHigh", cfgMultGlobalPVCorrCutFunction->c_str(), 0, nchbinning.back()); fMultPVGlobalCutHigh->SetParameters(&(o2::analysis::gfw::multGlobalPVCorrCutPars[0])); + + LOGF(info, "Global V0A function: %s in range 0-%g", cfgGlobalAsideCorrCuts.cfgMultGlobalASideCorrCutFunction->c_str(), v0aAxis.binEdges.back()); + fMultGlobalV0ACutLow = new TF1("fMultGlobalV0ACutLow", cfgGlobalAsideCorrCuts.cfgMultGlobalASideCorrCutFunction->c_str(), 0, v0aAxis.binEdges.back()); + for (std::size_t i = 0; i < o2::analysis::gfw::multGlobalV0ACutPars.size(); ++i) + fMultGlobalV0ACutLow->SetParameter(i, o2::analysis::gfw::multGlobalV0ACutPars[i]); + fMultGlobalV0ACutLow->SetParameter(o2::analysis::gfw::multGlobalV0ACutPars.size(), cfgGlobalAsideCorrCuts.cfgGlobalV0ALowSigma); + for (int i = 0; i < fMultGlobalV0ACutLow->GetNpar(); ++i) + LOGF(info, "fMultGlobalV0ACutLow par %d = %g", i, fMultGlobalV0ACutLow->GetParameter(i)); + + fMultGlobalV0ACutHigh = new TF1("fMultGlobalV0ACutHigh", cfgGlobalAsideCorrCuts.cfgMultGlobalASideCorrCutFunction->c_str(), 0, v0aAxis.binEdges.back()); + for (std::size_t i = 0; i < o2::analysis::gfw::multGlobalV0ACutPars.size(); ++i) + fMultGlobalV0ACutHigh->SetParameter(i, o2::analysis::gfw::multGlobalV0ACutPars[i]); + fMultGlobalV0ACutHigh->SetParameter(o2::analysis::gfw::multGlobalV0ACutPars.size(), cfgGlobalAsideCorrCuts.cfgGlobalV0AHighSigma); + for (int i = 0; i < fMultGlobalV0ACutHigh->GetNpar(); ++i) + LOGF(info, "fMultGlobalV0ACutHigh par %d = %g", i, fMultGlobalV0ACutHigh->GetParameter(i)); + + LOGF(info, "Global T0A function: %s", cfgGlobalAsideCorrCuts.cfgMultGlobalASideCorrCutFunction->c_str()); + fMultGlobalT0ACutLow = new TF1("fMultGlobalT0ACutLow", cfgGlobalAsideCorrCuts.cfgMultGlobalASideCorrCutFunction->c_str(), 0, t0aAxis.binEdges.back()); + for (std::size_t i = 0; i < o2::analysis::gfw::multGlobalT0ACutPars.size(); ++i) + fMultGlobalT0ACutLow->SetParameter(i, o2::analysis::gfw::multGlobalT0ACutPars[i]); + fMultGlobalT0ACutLow->SetParameter(o2::analysis::gfw::multGlobalT0ACutPars.size(), cfgGlobalAsideCorrCuts.cfgGlobalT0ALowSigma); + for (int i = 0; i < fMultGlobalT0ACutLow->GetNpar(); ++i) + LOGF(info, "fMultGlobalT0ACutLow par %d = %g", i, fMultGlobalT0ACutLow->GetParameter(i)); + + fMultGlobalT0ACutHigh = new TF1("fMultGlobalT0ACutHigh", cfgGlobalAsideCorrCuts.cfgMultGlobalASideCorrCutFunction->c_str(), 0, t0aAxis.binEdges.back()); + for (std::size_t i = 0; i < o2::analysis::gfw::multGlobalT0ACutPars.size(); ++i) + fMultGlobalT0ACutHigh->SetParameter(i, o2::analysis::gfw::multGlobalT0ACutPars[i]); + fMultGlobalT0ACutHigh->SetParameter(o2::analysis::gfw::multGlobalT0ACutPars.size(), cfgGlobalAsideCorrCuts.cfgGlobalT0AHighSigma); + for (int i = 0; i < fMultGlobalT0ACutHigh->GetNpar(); ++i) + LOGF(info, "fMultGlobalT0ACutHigh par %d = %g", i, fMultGlobalT0ACutHigh->GetParameter(i)); } if (cfgUseDensityDependentCorrection) { std::vector pTEffBins = {0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.4, 1.8, 2.2, 2.6, 3.0}; @@ -690,6 +737,15 @@ struct FlowGfwLightIons { return 0; if (multTrk > fMultPVGlobalCutHigh->Eval(collision.multNTracksPV())) return 0; + + if (!(cfgGlobalAsideCorrCuts.cfgMultGlobalASideCorrCutFunction->empty()) && static_cast(collision.multFV0A()) < fMultGlobalV0ACutLow->Eval(multTrk)) + return 0; + if (!(cfgGlobalAsideCorrCuts.cfgMultGlobalASideCorrCutFunction->empty()) && static_cast(collision.multFV0A()) > fMultGlobalV0ACutHigh->Eval(multTrk)) + return 0; + if (!(cfgGlobalAsideCorrCuts.cfgMultGlobalASideCorrCutFunction->empty()) && static_cast(collision.multFT0A()) < fMultGlobalT0ACutLow->Eval(multTrk)) + return 0; + if (!(cfgGlobalAsideCorrCuts.cfgMultGlobalASideCorrCutFunction->empty()) && static_cast(collision.multFT0A()) > fMultGlobalT0ACutHigh->Eval(multTrk)) + return 0; registry.fill(HIST("eventQA/eventSel"), kMultCuts); if (cfgRunByRun) th1sList[run][hEventSel]->Fill(kMultCuts);