http://arxiv.org/abs/1905.13650
If the dark matter is composed of virialized particles with mass $\lesssim 10$ eV, it is well described as a classical bosonic field. This field is stochastic in nature, where the field oscillation amplitude fluctuates following a Rayleigh distribution. Most experimental searches have been in the regime $\gtrsim\mu$eV, where it is reasonable to assume a fixed field oscillation amplitude determined by the average local dark matter energy density. However, several direct-detection experiments are searching in the ultra-light mass regime where the dark matter field coherence time greatly exceeds the measurement time and the field oscillation amplitude is uncertain. We show that the corresponding laboratory constraints of bosonic dark matter field couplings to standard model particles are overestimated by as much as an order of magnitude.
G. Centers, J. Blanchard, J. Conrad, et. al.
Mon, 3 Jun 19
6/59
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