Towards precise baryogenesis in the 2HDM+a
Towards precise baryogenesis in the 2HDM+a
We perform a detailed investigation of the viable baryogenesis parameter space of a non-minimal Higgs sector consisting of two Higgs doublets and a singlet pseudoscalar (2HDM+a). In such a model, an early Universe period of transient CP violation may occur, driven by a nonvanishing vacuum expectation value of the CP-odd scalar a. This naturally avoids the stringent electric dipole moment experimental constraints on beyond-the-Standard-Model sources of CP violation. We provide a state-of-art computation of the baryon asymmetry, providing several important improvements over existing baryogenesis computations for this model. We show that the required thermal history and successful baryogenesis lead to a predictive scenario, testable in the near future by a combination of LHC searches and low-energy flavour measurements. Our improved predictions for the baryon asymmetry find that it is rather suppressed compared to earlier predictions, requiring larger mixing between the singlet and 2HDM pseudoscalars and hence leading to a more easily testable model at colliders.
hep-ph
Gent, T.
6ca3984a-d3c7-4332-8c9e-5ee078c1d7f9
Huber, S.
19f51f63-15ba-4a1a-87e5-895bcab65255
Mimasu, K.
be4d4828-5d71-4c3f-a8d1-81d62a9d2e33
No, J.M.
25780e9f-28f8-4959-9eae-d8a684876bd8
Gent, T.
6ca3984a-d3c7-4332-8c9e-5ee078c1d7f9
Huber, S.
19f51f63-15ba-4a1a-87e5-895bcab65255
Mimasu, K.
be4d4828-5d71-4c3f-a8d1-81d62a9d2e33
No, J.M.
25780e9f-28f8-4959-9eae-d8a684876bd8
[Unknown type: UNSPECIFIED]
Abstract
We perform a detailed investigation of the viable baryogenesis parameter space of a non-minimal Higgs sector consisting of two Higgs doublets and a singlet pseudoscalar (2HDM+a). In such a model, an early Universe period of transient CP violation may occur, driven by a nonvanishing vacuum expectation value of the CP-odd scalar a. This naturally avoids the stringent electric dipole moment experimental constraints on beyond-the-Standard-Model sources of CP violation. We provide a state-of-art computation of the baryon asymmetry, providing several important improvements over existing baryogenesis computations for this model. We show that the required thermal history and successful baryogenesis lead to a predictive scenario, testable in the near future by a combination of LHC searches and low-energy flavour measurements. Our improved predictions for the baryon asymmetry find that it is rather suppressed compared to earlier predictions, requiring larger mixing between the singlet and 2HDM pseudoscalars and hence leading to a more easily testable model at colliders.
Text
2512.22081v1
- Author's Original
Available under License Other.
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Accepted/In Press date: 26 December 2025
Additional Information:
60 pages, 12 figures
Keywords:
hep-ph
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Local EPrints ID: 509765
URI: http://eprints.soton.ac.uk/id/eprint/509765
PURE UUID: 01c1d83c-b3b1-4732-9879-5801e965cbe3
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Date deposited: 04 Mar 2026 17:48
Last modified: 05 Mar 2026 03:08
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Contributors
Author:
T. Gent
Author:
S. Huber
Author:
K. Mimasu
Author:
J.M. No
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