Improving the dE/dx calibration of the STAR TPC for the high-pT hadron identification

Abstract

We derive a method to improve particle identification (PID) at high transverse momentum (pT) using the relativistic rise of the ionization energy loss (rdE/dx) when charged particles traverse the Time Projection Chamber (TPC) at STAR. Electrons triggered and identified by the Barrel Electro-Magnetic Calorimeter (BEMC), pure protons and pions from p+π- ( p+π+), and K0Sπ++π- decays are used to obtain the dE/dx value and its width at given βγ=p/m. We found that the deviation of the dE/dx from the Bichsel function can be up to 0.4σ (3%) in p+p collisions at sNN=200 GeV taken and subsequently calibrated in year 2005. The deviation is approximately a function of βγ independent of particle species and can be described with a function of f(x) = A+BC+x2. The deviations obtained with this method are used to re-calibrate the data sample from p+p collision for physics analysis of identified hadron spectra and their correlations up to transverse momentum of 15 GeV/c. The ratio of e-/e+ (dominantly from γ-conversion) is also used to correct the residual asymmetry in the negative and positive charged hadrons due to momentun distortion in the STAR TPC.