Effects of kinematic cuts on net-electric charge fluctuations

Abstract

The effects of kinematic cuts on electric charge fluctuations in a gas of charged particles are discussed. We consider a very transparent example of an ideal pion gas with quantum statistics, which can be viewed as a multi-component gas of Boltzmann particles with different charges and masses. Cumulants of net-electric charge fluctuations nQ are calculated in a static and expanding medium with flow parameters adjusted to the experimental data. We show that the transverse momentum cut, ptmin≤ pt≤ ptmax, weakens the effects of Bose statistics, i.e. contributions of effectively multi-charged states to higher order moments. Consequently, cuts in pt modify the experimentally measured cumulants and their ratios. We discuss the influence of kinematic cuts on the ratio of mean and variance of electric charge fluctuations in a hadron resonance gas, in the light of recent data of the STAR and PHENIX Collaborations. We find that the different momentum cuts of ptmin=0.2~GeV (STAR) and ptmin=0.3~GeV (PHENIX) are responsible for more than 30\% of the difference between these two data sets. We argue that the pt cuts imposed on charged particles will influence the normalized kurtosis QσQ2 = 4Q/2Q of the electric charge fluctuations. In particular, the reduction of QσQ2 with increasing ptmin will lead to differences between PHENIX and STAR data of O(6\%) which currently are buried under large statistical and systematic errors. We furthermore introduce the relation between momentum cut-off and finite volume effects, which is of relevance for the comparison between experimental data and lattice QCD calculations.