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ADMX-Orpheus First Search for 70 μeV Dark Photon Dark Matter: Detailed Design, Operations, and Analysis

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arxiv 2204.09475 v3 pith:6S4ZKUZP submitted 2022-04-20 hep-ex physics.ins-det

ADMX-Orpheus First Search for 70 μeV Dark Photon Dark Matter: Detailed Design, Operations, and Analysis

classification hep-ex physics.ins-det
keywords darkmatteradmx-orpheuscavitydesignhaloscopemassesanalysis
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Dark matter makes up 85% of the matter in the universe and 27% of its energy density, but we do not know what comprises dark matter. It is possible that dark matter may be composed of either axions or dark photons, both of which can be detected using an ultra-sensitive microwave cavity known as a haloscope. The haloscope employed by ADMX consists of a cylindrical cavity operating at the TM$_{010}$ mode and is sensitive to the QCD axion with masses of few $\mu$eV. However, this haloscope design becomes challenging to implement for higher masses. This is because higher masses require smaller-diameter cavities, consequently reducing the detection volume which diminishes the detected signal power. ADMX-Orpheus mitigates this issue by operating a tunable, dielectrically-loaded cavity at a higher-order mode, allowing the detection volume to remain large. This paper describes the design, operation, analysis, and results of the inaugural ADMX-Orpheus dark photon search between 65.5 $\mu$eV (15.8 GHz) and 69.3 $\mu$eV (16.8 GHz), as well as future directions for axion searches and for exploring more parameter space.

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  1. Resonant enhancement of axion dark matter decay

    hep-ph 2025-07 unverdicted novelty 6.0

    Resonant cavities enhance axion dark matter decay to two photons via the Purcell effect, offering a competitive search method implementable with pre-existing heterodyne detection schemes.