A power-law description of heavy ion collision centrality

Abstract

The minimum-bias distribution on heavy ion collision multiplicity nch is well approximated by power-law form nch-3/4, suggesting that a change of variable to nch1/4 may provide more precise access to the structure of the distribution and to A-A collision centrality. We present a detailed centrality study of Hijing-1.37 Monte Carlo data at 200 GeV using the power-law format. We find that the minimum-bias distribution on nparticipant1/4, determined with a Glauber Monte Carlo simulation, is uniform except for a 5% sinusoidal variation. The power-law format reveals precise linear relations between Glauber parameters npart and nbin and the fractional cross section. The power-law format applied to RHIC data facilitates incorporation of extrapolation constraints on data and Glauber distributions to obtain a ten-fold improvement in centrality accuracy for peripheral collisions.

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