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Parton energy loss in a classical strongly coupled QGP

✍ Scribed by Kevin Dusling; Ismail Zahed

Publisher
Elsevier Science
Year
2010
Tongue
English
Weight
277 KB
Volume
833
Category
Article
ISSN
0375-9474

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✦ Synopsis

We investigate the energy loss of heavy quarks in the gas, liquid and solid phase of a classical quarkgluon plasma (cQGP) using molecular dynamics simulations. The model consists of massive quarks and gluons interacting as a classical non-relativistic colored Coulomb gas. We show that the electric forceforce decorrelates on a short time scale causing the energy loss to be mostly diffusive and Langevin-like in the cQGP. We find that the drag coefficient changes with the heavy quark mass, while the diffusion constant does not. The fractional collisional energy loss is much larger than the leading order estimates from a wQGP (weakly coupled QGP) because of the core repulsion. Following recent suggestions, we show how the cQGP results can be translated to the sQGP (strongly coupled QGP) results in the T = (1 -3)T c range. Published by Elsevier B.V.

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I review the parton picture at strong coupling emerging from the gauge/gravity duality together with its consequences for the energy loss and momentum broadening of a heavy quark moving through a strongly coupled plasma.