Langevin diffusion of heavy quarks in non-conformal holographic backgrounds

U. Gursoy; Elias Kiritsis; Liuba Mazzanti; Francesco Nitti

doi:10.1007/JHEP12(2010)088

Langevin diffusion of heavy quarks in non-conformal holographic backgrounds

U. Gursoy, Elias Kiritsis, Liuba Mazzanti, Francesco Nitti

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The Langevin diffusion process of a relativistic heavy quark in a non-conformal holographic setup is analyzed. The bulk geometry is a general, five-dimensional asymptotically AdS black hole. The heavy quark is described by a trailing string attached to a flavor brane, moving at constant velocity. From the equations describing linearized fluctuations of the string world-sheet, the correlation functions defining a generalized Langevin process are constructed via the AdS/CFT prescription. In the local limit, analytic expressions for the Langevin diffusion and friction coefficients are obtained in terms of the bulk string metric. Modified Einstein relations between these quantities are also derived. The spectral densities associated to the Langevin correlators are analyzed, and simple analytic expressions are obtained in the small and large frequency limits. Finally, a numerical analysis of the jet-quenching parameter, and a comparison to RHIC phenomenology are performed in the case of Improved Holographic QCD. It is shown that the jet-quenching parameter is not enough to describe energy loss of very energetic charm quarks and the full Langevin correlators are needed.

Original language	English
Article number	088
Number of pages	69
Journal	Journal of High Energy Physics
Volume	2010
Issue number	12
DOIs	https://doi.org/10.1007/JHEP12(2010)088
Publication status	Published - Dec 2010

Funding

We would like to thank J. Casalderrey-Solana, A. Dainese, Y. Foka, E. Iancu, A. Kiessel, M. Panero, G. Policastro, E. Shuryak, U. Wiedemann, for useful conversations. This work was partially supported by a European Union grant FP7-REGPOT-2008-1-CreteHEP Cosmo-228644. The work of LM was supported in part by MICINN and FEDER under grant FPA2008-01838 and by the Spanish Consolider-Ingenio 2010 Programme CPAN (CSD2007-00042).

Keywords

Gauge-gravity correspondence
Black Holes
QCD
ORNSTEIN-UHLENBECK PROCESS
STRONGLY-COUPLED PLASMA
DENSE PARTONIC MATTER
GLUON PLASMA
YANG-MILLS
COLLISIONS
COLLABORATION
PERSPECTIVE
VISCOSITY
MOMENTUM

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title = "Langevin diffusion of heavy quarks in non-conformal holographic backgrounds",

abstract = "The Langevin diffusion process of a relativistic heavy quark in a non-conformal holographic setup is analyzed. The bulk geometry is a general, five-dimensional asymptotically AdS black hole. The heavy quark is described by a trailing string attached to a flavor brane, moving at constant velocity. From the equations describing linearized fluctuations of the string world-sheet, the correlation functions defining a generalized Langevin process are constructed via the AdS/CFT prescription. In the local limit, analytic expressions for the Langevin diffusion and friction coefficients are obtained in terms of the bulk string metric. Modified Einstein relations between these quantities are also derived. The spectral densities associated to the Langevin correlators are analyzed, and simple analytic expressions are obtained in the small and large frequency limits. Finally, a numerical analysis of the jet-quenching parameter, and a comparison to RHIC phenomenology are performed in the case of Improved Holographic QCD. It is shown that the jet-quenching parameter is not enough to describe energy loss of very energetic charm quarks and the full Langevin correlators are needed.",

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author = "U. Gursoy and Elias Kiritsis and Liuba Mazzanti and Francesco Nitti",

year = "2010",

month = dec,

doi = "10.1007/JHEP12(2010)088",

language = "English",

volume = "2010",

journal = "Journal of High Energy Physics",

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AU - Gursoy, U.

AU - Kiritsis, Elias

AU - Mazzanti, Liuba

AU - Nitti, Francesco

PY - 2010/12

Y1 - 2010/12

N2 - The Langevin diffusion process of a relativistic heavy quark in a non-conformal holographic setup is analyzed. The bulk geometry is a general, five-dimensional asymptotically AdS black hole. The heavy quark is described by a trailing string attached to a flavor brane, moving at constant velocity. From the equations describing linearized fluctuations of the string world-sheet, the correlation functions defining a generalized Langevin process are constructed via the AdS/CFT prescription. In the local limit, analytic expressions for the Langevin diffusion and friction coefficients are obtained in terms of the bulk string metric. Modified Einstein relations between these quantities are also derived. The spectral densities associated to the Langevin correlators are analyzed, and simple analytic expressions are obtained in the small and large frequency limits. Finally, a numerical analysis of the jet-quenching parameter, and a comparison to RHIC phenomenology are performed in the case of Improved Holographic QCD. It is shown that the jet-quenching parameter is not enough to describe energy loss of very energetic charm quarks and the full Langevin correlators are needed.

AB - The Langevin diffusion process of a relativistic heavy quark in a non-conformal holographic setup is analyzed. The bulk geometry is a general, five-dimensional asymptotically AdS black hole. The heavy quark is described by a trailing string attached to a flavor brane, moving at constant velocity. From the equations describing linearized fluctuations of the string world-sheet, the correlation functions defining a generalized Langevin process are constructed via the AdS/CFT prescription. In the local limit, analytic expressions for the Langevin diffusion and friction coefficients are obtained in terms of the bulk string metric. Modified Einstein relations between these quantities are also derived. The spectral densities associated to the Langevin correlators are analyzed, and simple analytic expressions are obtained in the small and large frequency limits. Finally, a numerical analysis of the jet-quenching parameter, and a comparison to RHIC phenomenology are performed in the case of Improved Holographic QCD. It is shown that the jet-quenching parameter is not enough to describe energy loss of very energetic charm quarks and the full Langevin correlators are needed.

KW - Gauge-gravity correspondence

KW - Black Holes

KW - QCD

KW - ORNSTEIN-UHLENBECK PROCESS

KW - STRONGLY-COUPLED PLASMA

KW - DENSE PARTONIC MATTER

KW - GLUON PLASMA

KW - YANG-MILLS

KW - COLLISIONS

KW - COLLABORATION

KW - PERSPECTIVE

KW - VISCOSITY

KW - MOMENTUM

U2 - 10.1007/JHEP12(2010)088

DO - 10.1007/JHEP12(2010)088

M3 - Article

SN - 1029-8479

VL - 2010

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 12

M1 - 088

ER -

Langevin diffusion of heavy quarks in non-conformal holographic backgrounds

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