2024
DOI: 10.1103/physrevd.110.043005
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Optomechanical dark matter instrument for direct detection

Christopher G. Baker,
Warwick P. Bowen,
Peter Cox
et al.

Abstract: We propose the Optomechanical Dark-matter Instrument (ODIN), based on a new method for the direct detection of low-mass dark matter. We consider dark matter interacting with superfluid helium in an optomechanical cavity. Using an effective field theory, we calculate the rate at which dark matter scatters off phonons in a highly populated, driven acoustic mode of the cavity. This scattering process deposits a phonon into a second acoustic mode in its ground state. The deposited phonon (μeV range) is then conver… Show more

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