Holographic Roberge-Weiss transitions

Aarts, Gert; Kumar, Prem; Rafferty, Jim

doi:10.1007/JHEP07(2010)056

Journal article 1171 views

Holographic Roberge-Weiss transitions

Gert Aarts

, Prem Kumar

, Jim Rafferty

Journal of High Energy Physics

Swansea University Authors: Gert Aarts , Prem Kumar , Jim Rafferty

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DOI (Published version): 10.1007/JHEP07(2010)056

Abstract

We investigate N=4 SYM coupled to fundamental flavours at nonzero imaginary quark chemical potential in the strong coupling and large N limit, using gauge/gravity duality applied to the D3-D7 system, treating flavours in the probe approximation. The interplay between Z(N) symmetry and the imaginary...

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Published in:	Journal of High Energy Physics
Published:	2010
URI:	https://cronfa.swan.ac.uk/Record/cronfa7467

first_indexed	2013-07-23T11:58:24Z
last_indexed	2020-07-16T18:19:44Z
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spelling	2020-07-16T14:32:29.8104896 v2 7467 2012-02-23 Holographic Roberge-Weiss transitions 1ba0dad382dfe18348ec32fc65f3f3de 0000-0002-6038-3782 Gert Aarts Gert Aarts true false 087fd097167d724ce1b13cb285741ef5 0000-0003-0867-4213 Prem Kumar Prem Kumar true false 52effe759a718bd36eb12cdd10fe1a09 0000-0002-1667-7265 Jim Rafferty Jim Rafferty true false 2012-02-23 BGPS We investigate N=4 SYM coupled to fundamental flavours at nonzero imaginary quark chemical potential in the strong coupling and large N limit, using gauge/gravity duality applied to the D3-D7 system, treating flavours in the probe approximation. The interplay between Z(N) symmetry and the imaginary chemical potential yields a series of first-order Roberge-Weiss transitions. An additional thermal transition separates phases where quarks are bound/unbound into mesons. This results in a set of Roberge-Weiss endpoints: we establish that these are triple points, determine the Roberge-Weiss temperature, give the curvature of the phase boundaries and confirm that the theory is analytic in mu^2 when mu^2~0. Journal Article Journal of High Energy Physics 31 7 2010 2010-07-31 10.1007/JHEP07(2010)056 COLLEGE NANME Biosciences Geography and Physics School COLLEGE CODE BGPS Swansea University 2020-07-16T14:32:29.8104896 2012-02-23T17:01:56.0000000 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics Gert Aarts 0000-0002-6038-3782 1 Prem Kumar 0000-0003-0867-4213 2 Jim Rafferty 0000-0002-1667-7265 3
title	Holographic Roberge-Weiss transitions
spellingShingle	Holographic Roberge-Weiss transitions Gert Aarts Prem Kumar Jim Rafferty
title_short	Holographic Roberge-Weiss transitions
title_full	Holographic Roberge-Weiss transitions
title_fullStr	Holographic Roberge-Weiss transitions
title_full_unstemmed	Holographic Roberge-Weiss transitions
title_sort	Holographic Roberge-Weiss transitions
author_id_str_mv	1ba0dad382dfe18348ec32fc65f3f3de 087fd097167d724ce1b13cb285741ef5 52effe759a718bd36eb12cdd10fe1a09
author_id_fullname_str_mv	1ba0dad382dfe18348ec32fc65f3f3de_*_Gert Aarts 087fd097167d724ce1b13cb285741ef5__Prem Kumar 52effe759a718bd36eb12cdd10fe1a09_**_Jim Rafferty
author	Gert Aarts Prem Kumar Jim Rafferty
author2	Gert Aarts Prem Kumar Jim Rafferty
format	Journal article
container_title	Journal of High Energy Physics
publishDate	2010
institution	Swansea University
doi_str_mv	10.1007/JHEP07(2010)056
college_str	Faculty of Science and Engineering
hierarchytype
hierarchy_top_id	facultyofscienceandengineering
hierarchy_top_title	Faculty of Science and Engineering
hierarchy_parent_id	facultyofscienceandengineering
hierarchy_parent_title	Faculty of Science and Engineering
department_str	School of Biosciences, Geography and Physics - Physics{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Physics
document_store_str	0
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description	We investigate N=4 SYM coupled to fundamental flavours at nonzero imaginary quark chemical potential in the strong coupling and large N limit, using gauge/gravity duality applied to the D3-D7 system, treating flavours in the probe approximation. The interplay between Z(N) symmetry and the imaginary chemical potential yields a series of first-order Roberge-Weiss transitions. An additional thermal transition separates phases where quarks are bound/unbound into mesons. This results in a set of Roberge-Weiss endpoints: we establish that these are triple points, determine the Roberge-Weiss temperature, give the curvature of the phase boundaries and confirm that the theory is analytic in mu^2 when mu^2~0.
published_date	2010-07-31T18:16:34Z
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score	10.841611

Holographic Roberge-Weiss transitions

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