Abstract
If the mass of dark matter is generated from a cosmological phase transition involving the nucleation of bubbles, the corresponding bubble walls can filter out dark matter particles during the phase transition. Only particles with sufficient momentum to overcome their mass inside the bubbles can pass through the walls. As a result, the dark matter number density after the phase transition has a suppression factor $\exp(-M_\chi/2\tilde \gamma T)$, where $M_\chi$ is the dark matter mass, and $\tilde \gamma$ and $T$ are the Lorentz factor and temperature of the incoming fluid in the bubble wall rest frame, respectively. Under certain assumptions, we show that the filtering-out process can naturally provide a large suppression consistent with the observed dark matter density for a wide range of dark matter masses up to the Planck scale. Since the first-order phase transition is the decisive ingredient in our mechanism, a new connection is made between heavy dark matter scenarios and gravitational wave observations.
Highlights
Thermal freeze-out mechanism has been regarded as a standard way to explain the amount of dark matter (DM) [1]
We have investigated the possibility that the DM relic abundance is determined by the filtering-out effect of the bubble wall during a first-order phase transition
We have shown that the DM number density after phase transition is suppressed by expð−Mχ=2γTÞ
Summary
Thermal freeze-out mechanism has been regarded as a standard way to explain the amount of dark matter (DM) [1]. For the observed DM density, DMs need a sizable annihilation rate, roughly as large as the electroweak interaction rate. We call such hypothetical DM particles as weakly interacting massive particles (WIMPs). Even if we can take refuge in heavy WIMP scenarios, there is a strong upper bound on DM mass within the freeze-out mechanism. If the DM mass is heavier than 100 TeV, there should be an additional process to fit in the correct relic density Along this direction, the pioneering works [5,6,7,8,9] studied the role of the early matter domination and inflation periods to obtain the correct heavy DM relics. We show that the parameter space of our scenario is fully separated from that of Refs. [12,13,14]
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