Abstract
Abstract
In an earlier work [1], we showed that in very simple neutrino portal-like
extensions of the Standard Model it is possible to achieve a one-to-one correspondence between
dark matter physics and the seesaw parameters controlling the genesis of neutrino masses.
Notably, this can occur both when the dark matter is produced via freeze-in and relativistic
freeze-out. In this article, we carry out a detailed phenomenological study of such
scenarios. Specifically, we find the allowed regions for the neutrino portal coupling within which
the correspondence is valid. We further constrain the parameter space from various observational
and theoretical considerations. Within this, we derive the distribution function of a doubly
frozen-in particle in order to more accurately compute its free-streaming horizon.
Subject
Astronomy and Astrophysics
Cited by
3 articles.
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