Radiative energy loss and radiative pT-broadening of high-energy partons in QCD matter

Abstract

We study the connection between radiative energy loss and radiative pT-broadening of a high-energy quark or gluon passing through QCD matter. The generalized Baier-Dokshitzer-Mueller-Peigne-Schiff-Zakharov (BDMPS-Z) formalism is used to calculate energy loss due to multiple gluon emission. With L the length of the matter and l0 the size of constituents of the matter we find a double logarithmic correction proportional to ln2(L/l0) to parton energy loss due to two-gluon emission. We also show that the radiative energy loss per unit length -dE/dz = alphas Nc < pT2 >/12 by carrying out a resummation of the double logarithmic terms. Here, the transverse momentum broadening <pT2> is obtained by resumming terms proportional to alphas ln2(L/l0) in Ref. [11]. Our result agrees with that by the renormalization of qhat proposed in Refs. [13,14].