Massive warm dark matter
Abstract
Many independent high resolution simulations have indicated that the standard collisionless cold dark matter model does not reproduce the structure of observed present day galaxies well. Several possible solutions in the form of modifications to the physics of the dark matter particles have been proposed. One of the most promising is warm dark matter (WDM), particles with significant thermal motion in the early universe. It is usually assumed that such particles are relativistically decoupled particles with a mass of approximately 1 keV. However, here we have investigated the possibility that much more massive particles with highly non-thermal spectra could make up warm dark matter. Several possible production mechanisms are reviewed and the only one found to be viable is that the WDM is produced by the non-relativistic decay of some massive species in the early universe. Such very massive warm dark matter could possibly be detected in direct detection experiments, as opposed to standard thermal warm dark matter.
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