Confinement and chiral symmetry breaking in holography: a smooth switch-off
Confinement and chiral symmetry breaking in holography: a smooth switch-off
We revisit the holographic description of the thermal first order phase transition of N=4 SYM compactified on a spatial circle. At the transition, the dominant bulk saddle exchanges between a geometry with a compact spatial circle and one with a compact Euclidean time circle. We construct a one-parameter family of Euclidean geometries that describes the unstable branch of the transition, completing the swallow-tail structure of the free energy. Although these configurations are thermodynamically unstable, they provide a continuous interpolation between the confining soliton and the deconfined black hole phases. Using probe fundamental strings, we show that the theory remains confining along the unstable branch, with a string tension that decreases smoothly and vanishes only in the black hole limit. Introducing fundamental matter via probe D5-branes, we find that chiral symmetry breaking follows the same pattern: the condensate decreases continuously and switches off precisely where confinement disappears. We discuss the implications for the confinement and chiral symmetry breaking mechanisms at large Nc.
hep-th
Berenguer, Marti
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Erdmenger, Johanna
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Evans, Nick
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Fan, Wanxiang
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Vasel, Florian
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Berenguer, Marti
0fd52ba1-be9a-4c46-8d18-b001c2fcf003
Erdmenger, Johanna
a6829342-7960-44ea-b502-fe531cde3f33
Evans, Nick
33dfbb52-64dd-4c1f-9cd1-074faf2be4b3
Fan, Wanxiang
26ec2421-45f6-4181-8d21-dc8aea1f8992
Vasel, Florian
6ca5c834-6c9c-4c78-8bf9-60ff3a5f48f1
[Unknown type: UNSPECIFIED]
Abstract
We revisit the holographic description of the thermal first order phase transition of N=4 SYM compactified on a spatial circle. At the transition, the dominant bulk saddle exchanges between a geometry with a compact spatial circle and one with a compact Euclidean time circle. We construct a one-parameter family of Euclidean geometries that describes the unstable branch of the transition, completing the swallow-tail structure of the free energy. Although these configurations are thermodynamically unstable, they provide a continuous interpolation between the confining soliton and the deconfined black hole phases. Using probe fundamental strings, we show that the theory remains confining along the unstable branch, with a string tension that decreases smoothly and vanishes only in the black hole limit. Introducing fundamental matter via probe D5-branes, we find that chiral symmetry breaking follows the same pattern: the condensate decreases continuously and switches off precisely where confinement disappears. We discuss the implications for the confinement and chiral symmetry breaking mechanisms at large Nc.
Text
2601.11136v1
- Author's Original
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Accepted/In Press date: 16 January 2026
Additional Information:
22 pages, 9 figures
Keywords:
hep-th
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Local EPrints ID: 509640
URI: http://eprints.soton.ac.uk/id/eprint/509640
PURE UUID: a6640bb8-efef-4f69-959c-c700f6dd6e29
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Date deposited: 27 Feb 2026 17:40
Last modified: 27 Feb 2026 17:40
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Contributors
Author:
Marti Berenguer
Author:
Johanna Erdmenger
Author:
Wanxiang Fan
Author:
Florian Vasel
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