ADMX SLIC: Results from a Superconducting LC Circuit Investigating Cold Axions

Abstract

Axions are a promising cold dark matter candidate. Haloscopes, which use the conversion of axions to photons in the presence of a magnetic field to detect axions, are the basis of microwave cavity searches such as the Axion Dark Matter eXperiment (ADMX). To search for lighter, low frequency axions in the sub 2×10-7 eV (50 MHz) range, a tunable lumped-element LC circuit has been proposed. For the first time, through ADMX SLIC (Superconducting Lc circuit Investigating Cold axions), a resonant LC circuit was used to probe this region of axion mass-coupling space. The detector used a superconducting LC circuit with piezoelectric driven capacitive tuning. The axion mass and corresponding frequency range 1.7498 -1.7519 ×10-7 eV (42.31 -- 42.36 MHz), 1.7734 - 1.7738 ×10-7 eV (42.88 -- 42.89 MHz), and 1.8007 - 1.8015 ×10-7 eV (43.54 -- 43.56 MHz) was covered at magnetic fields of 4.5 T, 5.0 T, and 7.0 T respectively. Exclusion results from the search data, for coupling below 10-12 GeV-1 are presented.