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- Type of Document: Article
- DOI: 10.1007/JHEP06(2012)065
- Publisher: Springer , 2012
- Abstract:
- To study the rate of energy and momentum loss of a heavy quark in QGP, specifically in the hydrodynamic regime, we use fluid/gravity duality and construct a perturbative procedure to find the string solution in gravity side. We show that by this construction, the position of the world-sheet horizon and thereby the drag force exerted on the quark can be computed perturbatively, order by order in a boundary derivative expansion, for a wide range of quark velocities. At ideal order, our result is just the localized expression of the drag force exerted on a moving quark in thermal plasma, while for a quark whose velocity does not belong to the mentioned range, we predict a nonlocal drag force. Furthermore, we apply this procedure to a transverse quark in Bjorken flow and compute the first-derivative corrections, namely viscous corrections, to the drag force. We show that the diffusion time depends on the initial momentum of the transverse quark and can be about 4fm for a high energy quark which has been created sufficiently late
- Keywords:
- Gauge-gravity correspondence ; Holography and quark-gluon plasmas
- Source: Journal of High Energy Physics ; Volume 2012, Issue 6 , 2012 ; 11266708 (ISSN)
- URL: http://link.springer.com/article/10.1007/JHEP06%282012%29065