Investigating the electroweak phase transition with a real scalar singlet at a muon collider
Investigating the electroweak phase transition with a real scalar singlet at a muon collider
A strong first-order electroweak phase transition (SFOEWPT) is essential for explaining baryogenesis and for potentially generating observable gravitational waves. This study investigates the potential of a high-energy muon collider to examine the occurrence of SFOEWPT within the context of a Standard Model extended by a real scalar singlet (xSM). We analyzed all possible decay modes of the singlet to constrain the valid parameter space of SFOEWPT, which was extracted numerically at different renormalization scales to account for theoretical uncertainties, thereby determining the sensitivity of a muon collider to the production and decay channels of novel heavy scalar particles that emerge in the xSM. The findings demonstrate that a 3 TeV muon collider can directly examine the nature of electroweak symmetry breaking by efficiently detecting novel scalar particles associated with a first-order electroweak phase transition through jet-rich final states, thus complementing the indirect constraints from gravitational wave experiments.
hep-ph, astro-ph.CO
Aboudonia, Mohamed
c17f9988-a36b-4fad-83f0-474fb5c727f2
Balazs, Csaba
98ab205c-5979-4047-b72d-6e2b9f4dd2b4
Papaefstathiou, Andreas
e682db6b-7024-4f5e-bdb7-9c5c1d1b2b72
White, Graham
652445c5-e1e5-4ff7-84e1-a3bca45e75d0
Aboudonia, Mohamed
c17f9988-a36b-4fad-83f0-474fb5c727f2
Balazs, Csaba
98ab205c-5979-4047-b72d-6e2b9f4dd2b4
Papaefstathiou, Andreas
e682db6b-7024-4f5e-bdb7-9c5c1d1b2b72
White, Graham
652445c5-e1e5-4ff7-84e1-a3bca45e75d0
[Unknown type: UNSPECIFIED]
Abstract
A strong first-order electroweak phase transition (SFOEWPT) is essential for explaining baryogenesis and for potentially generating observable gravitational waves. This study investigates the potential of a high-energy muon collider to examine the occurrence of SFOEWPT within the context of a Standard Model extended by a real scalar singlet (xSM). We analyzed all possible decay modes of the singlet to constrain the valid parameter space of SFOEWPT, which was extracted numerically at different renormalization scales to account for theoretical uncertainties, thereby determining the sensitivity of a muon collider to the production and decay channels of novel heavy scalar particles that emerge in the xSM. The findings demonstrate that a 3 TeV muon collider can directly examine the nature of electroweak symmetry breaking by efficiently detecting novel scalar particles associated with a first-order electroweak phase transition through jet-rich final states, thus complementing the indirect constraints from gravitational wave experiments.
Text
2410.22700v1
- Author's Original
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e-pub ahead of print date: 30 October 2024
Keywords:
hep-ph, astro-ph.CO
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Local EPrints ID: 496486
URI: http://eprints.soton.ac.uk/id/eprint/496486
PURE UUID: 09c92ce4-9419-4d05-af4f-3bd780e9e271
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Date deposited: 16 Dec 2024 17:54
Last modified: 16 Dec 2024 17:54
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Contributors
Author:
Mohamed Aboudonia
Author:
Csaba Balazs
Author:
Andreas Papaefstathiou
Author:
Graham White
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