Non-Abelian domain walls and gravitational waves
Non-Abelian domain walls and gravitational waves
We investigate the properties of domain walls arising from non-Abelian discrete symmetries, which we refer to as non-Abelian domain walls. We focus on S4, one of the most commonly used groups in lepton flavour mixing models. The spontaneous breaking of S4 leads to distinct vacua preserving a residual Z2 or Z3 symmetry. Five types of domain walls are found, labelled as SI, SII, TI, TII, and TIII, respectively, the former two separating Z2 vacua and the latter three separating Z3 vacua. We highlight that SI, TI and TIII may be unstable for some regions of the parameter space and decay to stable domain walls. Stable domain walls can collapse and release gravitational radiation for a suitable size of explicit symmetry breaking. A symmetry-breaking scale of order 100 TeV may explain the recent discovery of nanohertz gravitational waves by PTA experiments. For the first time, we investigate the properties of these domain walls, which we obtain numerically with semi-analytical formulas applied to compute the tension and thickness across a wide range of parameter space. We estimate the resulting gravitational wave spectrum and find that, thanks to their rich vacuum structure, non-Abelian domain walls manifest in a very interesting and complex phenomenology.
hep-ph
Fu, Bowen
e9d30795-7f18-40cb-9611-2fad397ef3c7
King, Stephen F.
f8c616b7-0336-4046-a943-700af83a1538
Marsili, Luca
57f44802-3569-4305-aeba-9361f3fb56d0
Pascoli, Silvia
5cf2d5e5-b9bd-4884-8ba1-2fd4ddf4eb2e
Turner, Jessica
878a743d-6697-4d49-a632-b6c6d51890d3
Zhou, Ye-Ling
45c09c67-b21d-4646-84df-d749db844451
Fu, Bowen
e9d30795-7f18-40cb-9611-2fad397ef3c7
King, Stephen F.
f8c616b7-0336-4046-a943-700af83a1538
Marsili, Luca
57f44802-3569-4305-aeba-9361f3fb56d0
Pascoli, Silvia
5cf2d5e5-b9bd-4884-8ba1-2fd4ddf4eb2e
Turner, Jessica
878a743d-6697-4d49-a632-b6c6d51890d3
Zhou, Ye-Ling
45c09c67-b21d-4646-84df-d749db844451
[Unknown type: UNSPECIFIED]
Abstract
We investigate the properties of domain walls arising from non-Abelian discrete symmetries, which we refer to as non-Abelian domain walls. We focus on S4, one of the most commonly used groups in lepton flavour mixing models. The spontaneous breaking of S4 leads to distinct vacua preserving a residual Z2 or Z3 symmetry. Five types of domain walls are found, labelled as SI, SII, TI, TII, and TIII, respectively, the former two separating Z2 vacua and the latter three separating Z3 vacua. We highlight that SI, TI and TIII may be unstable for some regions of the parameter space and decay to stable domain walls. Stable domain walls can collapse and release gravitational radiation for a suitable size of explicit symmetry breaking. A symmetry-breaking scale of order 100 TeV may explain the recent discovery of nanohertz gravitational waves by PTA experiments. For the first time, we investigate the properties of these domain walls, which we obtain numerically with semi-analytical formulas applied to compute the tension and thickness across a wide range of parameter space. We estimate the resulting gravitational wave spectrum and find that, thanks to their rich vacuum structure, non-Abelian domain walls manifest in a very interesting and complex phenomenology.
Text
2409.16359v1
- Author's Original
Available under License Other.
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Accepted/In Press date: 24 September 2024
Additional Information:
29 pages, 15 figures
Keywords:
hep-ph
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Local EPrints ID: 496245
URI: http://eprints.soton.ac.uk/id/eprint/496245
PURE UUID: 62930e7f-57c7-488a-8f74-0b26641ae838
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Date deposited: 09 Dec 2024 17:53
Last modified: 09 Dec 2024 17:53
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Contributors
Author:
Bowen Fu
Author:
Luca Marsili
Author:
Silvia Pascoli
Author:
Jessica Turner
Author:
Ye-Ling Zhou
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