Simple estimate of BBN sensitivity to light freeze-in dark matter

Abstract

We provide a simple analysis of the big-bang nucleosynthesis (BBN) sensitivity to the light dark matter (DM) generated by the thermal freeze-in mechanism. It is shown that the ratio of the effective neutrino number shift N over the DM relic density ω h2, denoted by R N/ω, cancels the decaying particle mass and the feeble coupling, rendering therefore a simple visualization of N at the BBN epoch in terms of the DM mass. This property drives one to conclude that the shift with a sensitivity of N O(0.1) cannot originate from a single warm DM under the Lyman-α forest constraints. For the cold-plus-warm DM scenarios where the Lyman-α constraints are diluted, the ratio R can be potentially used to test the thermal freeze-in mechanism in generating a small warm component of DM and a possible excess at the level of N O(0.01).

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