Discovering QCD-Coupled Axion Dark Matter with Polarization Haloscopes

Published 26 Sep 2022 in hep-ph, hep-ex, nucl-th, and physics.ins-det | (2209.12901v2)

Abstract: In the presence of QCD axion dark matter, atoms acquire time-dependent electric dipole moments. This effect gives rise to an oscillating current in a nuclear spin-polarized dielectric, which can resonantly excite an electromagnetic mode of a microwave cavity. We show that with existing technology such a "polarization haloscope" can explore orders of magnitude of new parameter space for QCD-coupled axions. If any cavity haloscope detects a signal from the axion-photon coupling, an upgraded polarization haloscope has the unique ability to test whether it arises from the QCD axion.

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Discovering QCD-Coupled Axion Dark Matter with Polarization Haloscopes

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