#-------Parameters used for analysis------ # Event selection: mZvtxCut 130 // cut on vertex z coordinate # PID cuts for principle tracks, pool 1 and 2: mPIDsigTPC 2 // dEdx PID parameters; it is demonstrative number - it is p dependent mPIDsigTOF 2 // Beta PID parameters mNofHitsCut 39 // minimal number of hits for a track mEtaCut 1.0 // maximal pseudorapidity for a track mDCACut 3.0 // maximum DCA nSigma for a track # PID cuts for associated tracks pool 3, pt < 110 MeV/c: mAssoPIDsigTPC_p3_LowpT 4 // dEdx PID parameters mAssoNofHitsCut_p3_LowpT 10 // minimal number of hits for a track mAssoEtaCut_p3_LowpT 2.5 // maximal pseudorapidity for a track mAssoDCACut_p3_LowpT 5.0 // maximum DCA nSigma for a track # PID cuts for associated tracks pool 3, pt > 110 MeV/c: mAssoPIDsigTPC_p3_HighpT 3 // dEdx PID parameters mAssoNofHitsCut_p3_HighpT 10 // minimal number of hits for a track mAssoEtaCut_p3_HighpT 2.5 // maximal pseudorapidity for a track mAssoDCACut_p3_HighpT 5.0 // maximum DCA nSigma for a track # PID cuts for associated tracks category C: mAssoUPIDsigTPC_C 2 // dEdx PID parameters mAssoLPIDsigTPC_C -1 // dEdx PID parameters mAssoPIDsigTOF_C 2 // Beta PID parameters mAssoNofHitsCut_C 10 // minimal number of hits for a track mAssoEtaCut_C 2.5 // maximal pseudorapidity for a track mAssoDCACut_C 5.0 // maximum DCA nSigma for a track # Pair cuts, pool 1 and 2: mInvMass 0.12 // pair invariant mass cut # Pair cuts, pool 3: mInvMass_p3 0.08 // pair invariant mass cut mOpenAngle_p3 10 // pair openiing angle cut # Pair cuts, category C: mInvMass_C 0.08 // invariant mass cut mOpenAngle_C 5 // pair openiing angle cut # Other inputs: IsML 1 // 0 - 1D cuts, 1 - ML Fid 0.7 // fiducial cut BRWeight 0.05 // 1.0/20.0 or 0.05 - Request 34, 1 - Request 25