#-------Parameters used for analysis------

applySelection true

# Event selection: 

mZvtxCut 40 // cut on vertex z coordinate

mNhitsCut 10 //  number of hits in TPC tracks used for centrality

# V0 cuts: 

mMinR2Cut 15  // (cm) Minimal conversion radius (to exclude Dalitz)

mMaxR2Cut 100 // (cm) Maximal conversion radius (to exclude poorly reconstructed tracks)

mPIDsigM   4  // dEdx PID parameters

mPIDsigE   4  // dEdx PID parameters

mPIDenergy 11  // dEdx PID parameters

mPIDkoeff  1  // dEdx PID parameters

mPIDgenerator NSIG  // dEdx PID parameters

mPIDtracking  CF  // dEdx PID parameters

mPIDparticles elpikapr  // dEdx PID parameters

mNofHitsCut  10  // minimal number of hits to accept track

mEtaCut      1  // maximal pseudorapidity accepted

mPtminCut   0.05  // minimal pt used in analysis

mNofHitsCut 10  // minimal number of hits to accept track

mProbElCut  -1  // minimal dEdx probability for electrons (does not seem to be filled)

mdEdxSigmaCut  3  // dEdx cut in sigmas

mBetaSigmaCut  3  // beta cut

mRequireTOFpid  false // mRequireTOFpid

mAlphaCut 0.10200000 //r vs p angle

mMassCut  0.051  // e+e- pair mass cut

mDistCut  2.8    // maximal closest distance between daughters

mCosPsiCut 0.275 // e+e- pair orientation wrt B-filed

mChi2Cut  10  // maximal chi2 in Kalman fit

# Cluster cuts: 

mCluEmin  0.05  // (GeV) minimal cluster energy

mCluMult  2  // minimal number of cells in cluster

mCluTof   3  // (N) maximal time wrt photon arrival divided by time resolution

mCluDisp  2.5  // disp cut

mCluCPV   2  // (sigma) minimal distance to charged track extrapolation