Measurement of q in Relativistic Heavy Ion Collisions using di-hadron correlations

Abstract

The azimuthal width of the di-hadron correlations in p+p collisons, beyond the fragmentation transverse momentum, jT, is dominated by kT, the so-called intrinsic transverse momentum of a parton in a nucleon, which can be measured. The predicted azimuthal broadening in A+A collisions should produce a larger kT than in p+p collisions. The present work introduces the observation that the kT measured in p+p collisions for di-hadrons with pTt and pTa must be reduced to compensate for the energy loss of both the trigger and away parent partons when comparing to the kT measured with the same di-hadron pTt and pTa in Au+Au collisions. This idea is applied to a recent STAR di-hadron measurement, with result qL=2.1 0.6 GeV2. This is more precise but in agreement with a theoretical calulation of qL=14+42-14 GeV2 using the same data. Assuming a length L≈ 7 fm for central Au+Au collisions the present result gives q=0.30 0.09 GeV2/fm, in fair agreement with the JET collaboration result of q≈ 1.2 0.3 GeV2/fm at initial time τ0=0.6 fm/c in Au+Au collisions at sNN=200 GeV.