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Main Authors: Dong, Tian, Floyd, Conor M., Hekster, Antonia, Li, Derek J., Shuve, Brian, Tucker-Smith, David
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.18739
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author Dong, Tian
Floyd, Conor M.
Hekster, Antonia
Li, Derek J.
Shuve, Brian
Tucker-Smith, David
author_facet Dong, Tian
Floyd, Conor M.
Hekster, Antonia
Li, Derek J.
Shuve, Brian
Tucker-Smith, David
contents We investigate baryogenesis from dark matter oscillations in the ultraviolet freeze-in regime. We find that the mechanism can simultaneously accommodate the observed abundances of baryons and dark matter for dark matter masses in the 10 keV to MeV range, provided the reheat temperature lies between the temperature of the electroweak phase transition and ~10 TeV. The mechanism predicts observable consequences due to the presence of a light dark matter component that is relativistic during structure formation, and X-ray bounds on decaying dark matter can set strong constraints depending on the operator mediating dark matter production.
format Preprint
id arxiv_https___arxiv_org_abs_2507_18739
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Oscillation Baryogenesis via Ultraviolet Dark Matter Freeze-In
Dong, Tian
Floyd, Conor M.
Hekster, Antonia
Li, Derek J.
Shuve, Brian
Tucker-Smith, David
High Energy Physics - Phenomenology
We investigate baryogenesis from dark matter oscillations in the ultraviolet freeze-in regime. We find that the mechanism can simultaneously accommodate the observed abundances of baryons and dark matter for dark matter masses in the 10 keV to MeV range, provided the reheat temperature lies between the temperature of the electroweak phase transition and ~10 TeV. The mechanism predicts observable consequences due to the presence of a light dark matter component that is relativistic during structure formation, and X-ray bounds on decaying dark matter can set strong constraints depending on the operator mediating dark matter production.
title Oscillation Baryogenesis via Ultraviolet Dark Matter Freeze-In
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2507.18739