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We report the first result from a dark photon dark matter search in the mass range from 78. 62 to 83. 95 μeV/c^2 with a dielectric haloscope prototype for madmax (Magnetized Disc and Mirror Axion eXperiment). Putative dark photons would convert to detectable photons within a stack consisting of three sapphire disks and a mirror. The emitted power of this system is received by an antenna and successively digitized using a low-noise receiver. No significant signal attributable to dark photons has been observed above the expected background. Assuming unpolarized dark photon dark matter with a local density of ρ⏦=0. 3 GeV cm^3 we exclude a dark photon to photon mixing parameter χ>2. 7×10^-12 over the full mass range and χ>1. 1×10^-13 at a mass of 80. 57 μeV/c^2 with a 95% confidence level. This is the first physics result from a madmax prototype and exceeds previous constraints on χ in this mass range by up to almost three orders of magnitude.
Egge et al. (Fri,) studied this question.
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