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Freeze-in, glaciation, and UV sensitivity from light mediators

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arxiv 2111.13709 v2 pith:WITQGSZL submitted 2021-11-26 hep-ph astro-ph.CO

Freeze-in, glaciation, and UV sensitivity from light mediators

classification hep-ph astro-ph.CO
keywords freeze-ininitiallightyielddarkdependencefinalglaciation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Dark matter (DM) freeze-in through a light mediator is an appealing model with excellent detection prospects at current and future experiments. Light mediator freeze-in is UV-insensitive insofar as most DM is produced at late times, and thus the DM abundance does not depend on the unknown early evolution of our universe. However the final DM yield retains a dependence on the initial DM population, which is usually assumed to be exactly zero. We point out that in models with light mediators, the final DM yield will also depend on the initial conditions assumed for the light mediator population. We describe a class of scenarios we call "glaciation" where DM freezing in from the SM encounters a pre-existing thermal bath of mediators, and study the dependence of the final DM yield on the initial temperature of this dark radiation bath. To compute DM scattering rates in this cosmology, we derive for the first time an exact integral expression for the Boltzmann collision term describing interactions between two species at different temperatures. We quantify the dependence of the DM yield on the initial dark temperature and find that it can be sizeable in regions near the traditional (zero initial abundance) freeze-in curve. We generalize the freeze-in curve to a glaciation band, which can extend as much as an order of magnitude below the traditional freeze-in direct detection target, and point out that the DM phase space distribution as well as the yield can be strongly dependent on initial conditions.

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  1. WIMP-like Dark Matter Without Thermalization At Freeze-Out

    hep-ph 2026-05 unverdicted novelty 7.0

    Hidden-sector dark matter achieves standard thermal relic abundance via early decoupling with temperature-matched freeze-out, enabling WIMP-like cross sections without late-time thermalization.