Shu Lin, Robert D. Pisarski, Vladimir V. Skokov
Published 2013-12-11Version 1
We compute the collisional energy loss for a heavy quark above the critical temperature in Quantum ChromoDynamics (QCD). We work in the semi Quark-Gluon Plasma, which assumes that this region is dominated by the non-trivial holonomy of the thermal Wilson line. Relative to the result to leading order in perturbation theory, at a fixed value of the coupling constant we generically we find that collisional energy loss is suppressed by powers of the Polyakov loop, l < 1. For small values of the loop, this suppression is linear for the scattering off of light quarks, and quadratic for the scattering off of gluons, or for Compton scattering.
Comments: 19 pages, 4 figures
Quark Spectrum above but near Critical Temperature of Chiral Transition
Quenching of Hadron Spectra due to the Collisional Energy Loss of Partons in the Quark-Gluon Plasma
The collisional energy loss of a heavy-quark in a semi-quark-gluon plasma
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