Abstract
Baryogenesis at the TeV scale from CP-violating decays of a massive particle requires some way to avoid the washouts from processes closely related to the existence of CP violation. Baryogenesis from three-body decays (instead of two-body decays) has been proposed as a way for TeV scale baryogenesis. In this work we revisit this statement and show that, although three-body-decay models can provide interesting alternatives to address other kind of difficulties faced by low-scale baryogenesis, the generic problem due to the washouts proportional to the CP asymmetry persists. Therefore, as in two-body-decay models, the mass of the decaying particle cannot be below ∼10 TeV unless some mechanism to avoid these kinds of washouts is implemented. Published by the American Physical Society 2024
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