Holography and thermodynamics of 5D dilaton-gravity

U. Gürsoy; E. Kiritsis; L. Mazzanti; F. Nitti

doi:10.1088/1126-6708/2009/05/033

Holography and thermodynamics of 5D dilaton-gravity

U. Gürsoy, E. Kiritsis, L. Mazzanti, F. Nitti

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Abstract

The asymptotically-logarithmically-AdS black-hole solutions of 5D dilaton gravity with a monotonic dilaton potential are analyzed in detail. Such theories are holographically very close to pure Yang-Mills theory in four dimensions. The existence and uniqueness of black-hole solutions is shown. It is also shown that a Hawking-Page transition exists at finite temperature if and only if the potential corresponds to a confining theory. The physics of the transition matches in detail with that of deconfinement of the Yang-Mills theory. The high-temperature phase asymptotes to a free gluon gas at high temperature matching the expected behavior from asymptotic freedom. The thermal gluon condensate is calculated and shown to be crucial for the existence of a non-trivial deconfining transition. The condensate of the topological charge is shown to vanish in the deconfined phase.

Original language	English
Pages (from-to)	033/1-033/111
Number of pages	111
Journal	Journal of High Energy Physics
Volume	05
DOIs	https://doi.org/10.1088/1126-6708/2009/05/033
Publication status	Published - 2009

Bibliographical note

LaTeX, 61 pages (main body) + 58 pages (appendix), 25 eps figures. Revised version, published in JHEP. Two equations added in Section 7.4; typos corrected; references added

Keywords

hep-th
gr-qc
hep-ph

Access to Document

10.1088/1126-6708/2009/05/033

U._Gürsoy_2009_J._High_Energy_Phys._2009_033Final published version, 1.25 MB

Cite this

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title = "Holography and thermodynamics of 5D dilaton-gravity",

abstract = "The asymptotically-logarithmically-AdS black-hole solutions of 5D dilaton gravity with a monotonic dilaton potential are analyzed in detail. Such theories are holographically very close to pure Yang-Mills theory in four dimensions. The existence and uniqueness of black-hole solutions is shown. It is also shown that a Hawking-Page transition exists at finite temperature if and only if the potential corresponds to a confining theory. The physics of the transition matches in detail with that of deconfinement of the Yang-Mills theory. The high-temperature phase asymptotes to a free gluon gas at high temperature matching the expected behavior from asymptotic freedom. The thermal gluon condensate is calculated and shown to be crucial for the existence of a non-trivial deconfining transition. The condensate of the topological charge is shown to vanish in the deconfined phase.",

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author = "U. G{\"u}rsoy and E. Kiritsis and L. Mazzanti and F. Nitti",

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doi = "10.1088/1126-6708/2009/05/033",

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TY - JOUR

T1 - Holography and thermodynamics of 5D dilaton-gravity

AU - Gürsoy, U.

AU - Kiritsis, E.

AU - Mazzanti, L.

AU - Nitti, F.

N1 - LaTeX, 61 pages (main body) + 58 pages (appendix), 25 eps figures. Revised version, published in JHEP. Two equations added in Section 7.4; typos corrected; references added

PY - 2009

Y1 - 2009

N2 - The asymptotically-logarithmically-AdS black-hole solutions of 5D dilaton gravity with a monotonic dilaton potential are analyzed in detail. Such theories are holographically very close to pure Yang-Mills theory in four dimensions. The existence and uniqueness of black-hole solutions is shown. It is also shown that a Hawking-Page transition exists at finite temperature if and only if the potential corresponds to a confining theory. The physics of the transition matches in detail with that of deconfinement of the Yang-Mills theory. The high-temperature phase asymptotes to a free gluon gas at high temperature matching the expected behavior from asymptotic freedom. The thermal gluon condensate is calculated and shown to be crucial for the existence of a non-trivial deconfining transition. The condensate of the topological charge is shown to vanish in the deconfined phase.

AB - The asymptotically-logarithmically-AdS black-hole solutions of 5D dilaton gravity with a monotonic dilaton potential are analyzed in detail. Such theories are holographically very close to pure Yang-Mills theory in four dimensions. The existence and uniqueness of black-hole solutions is shown. It is also shown that a Hawking-Page transition exists at finite temperature if and only if the potential corresponds to a confining theory. The physics of the transition matches in detail with that of deconfinement of the Yang-Mills theory. The high-temperature phase asymptotes to a free gluon gas at high temperature matching the expected behavior from asymptotic freedom. The thermal gluon condensate is calculated and shown to be crucial for the existence of a non-trivial deconfining transition. The condensate of the topological charge is shown to vanish in the deconfined phase.

KW - hep-th

KW - gr-qc

KW - hep-ph

U2 - 10.1088/1126-6708/2009/05/033

DO - 10.1088/1126-6708/2009/05/033

M3 - Article

SN - 1126-6708

VL - 05

SP - 033/1-033/111

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

ER -

Holography and thermodynamics of 5D dilaton-gravity

Abstract

Bibliographical note

Keywords

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