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Weak universality induced by Q = ± 2e charges at the deconfinement transition of a (2+1)-dimensional U(1) lattice gauge theory

Weak universality induced by Q = ± 2e charges at the deconfinement transition of a (2+1)-dimensional U(1) lattice gauge theory
Weak universality induced by Q = ± 2e charges at the deconfinement transition of a (2+1)-dimensional U(1) lattice gauge theory
Matter-free lattice gauge theories (LGTs) provide an ideal setting to understand confinement to deconfinement transitions at finite temperatures, which is typically due to the spontaneous breakdown (at large temperatures) of the center symmetry associated with the gauge group. Close to the transition, the relevant degrees of freedom (Polyakov loop) transform under these center symmetries, and the effective theory depends on only the Polyakov loop and its fluctuations. As shown first by Svetitsky and Yaffe, and subsequently verified numerically, for the U(1) LGT in (2 þ 1) dimensions, the transition is in the 2D XY universality class, while for the Z2 LGT, it is in the 2D Ising universality class. We extend this classic scenario by adding higher charged matter fields and show that the critical exponents γ and ν can change continuously as a coupling is varied, while their ratio is fixed to the 2D Ising value. While such weak universality is well known for spin models, we demonstrate this for LGTs for the first time. Using an efficient cluster algorithm, we show that the finite temperature phase transition of the U(1) quantum link LGT in the spin S ¼ 12 representation is in the 2D XY universality class, as expected. On the addition of Q ¼ ±2e charges distributed thermally, we demonstrate the occurrence of weak universality.
1079-7114
Sau, Indrajit
085a9e72-a3cd-4dab-b6d2-b26c451e6332
Sen, Arnab
9b1be333-298a-4c66-8779-120e9dfcc89b
Banerjee, Debasish
dcc5d706-d0ed-40b7-94f6-a4ddd7d41646
Sau, Indrajit
085a9e72-a3cd-4dab-b6d2-b26c451e6332
Sen, Arnab
9b1be333-298a-4c66-8779-120e9dfcc89b
Banerjee, Debasish
dcc5d706-d0ed-40b7-94f6-a4ddd7d41646

Sau, Indrajit, Sen, Arnab and Banerjee, Debasish (2023) Weak universality induced by Q = ± 2e charges at the deconfinement transition of a (2+1)-dimensional U(1) lattice gauge theory. Phys.Rev.Lett., 130, [071901]. (doi:10.1103/PhysRevLett.130.071901).

Record type: Article

Abstract

Matter-free lattice gauge theories (LGTs) provide an ideal setting to understand confinement to deconfinement transitions at finite temperatures, which is typically due to the spontaneous breakdown (at large temperatures) of the center symmetry associated with the gauge group. Close to the transition, the relevant degrees of freedom (Polyakov loop) transform under these center symmetries, and the effective theory depends on only the Polyakov loop and its fluctuations. As shown first by Svetitsky and Yaffe, and subsequently verified numerically, for the U(1) LGT in (2 þ 1) dimensions, the transition is in the 2D XY universality class, while for the Z2 LGT, it is in the 2D Ising universality class. We extend this classic scenario by adding higher charged matter fields and show that the critical exponents γ and ν can change continuously as a coupling is varied, while their ratio is fixed to the 2D Ising value. While such weak universality is well known for spin models, we demonstrate this for LGTs for the first time. Using an efficient cluster algorithm, we show that the finite temperature phase transition of the U(1) quantum link LGT in the spin S ¼ 12 representation is in the 2D XY universality class, as expected. On the addition of Q ¼ ±2e charges distributed thermally, we demonstrate the occurrence of weak universality.

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Accepted/In Press date: 31 January 2023
Published date: 17 February 2023
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Identifiers

Local EPrints ID: 500512
URI: http://eprints.soton.ac.uk/id/eprint/500512
DOI: doi:10.1103/PhysRevLett.130.071901
ISSN: 1079-7114
PURE UUID: cce4ff4b-370e-49c9-831a-5917cc9bf5d1
ORCID for Debasish Banerjee: ORCID iD orcid.org/0000-0003-0244-4337

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Date deposited: 02 May 2025 16:36
Last modified: 22 Aug 2025 02:47

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Contributors

Author: Indrajit Sau
Author: Arnab Sen
Author: Debasish Banerjee ORCID iD

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