Search for galactic axions with a high-Q dielectric cavity

Abstract

A haloscope of the QUAX--aγ experiment, composed of an high-Q resonant cavity immersed in a 8 T magnet and cooled to 4.5~K is operated to search for galactic axion with mass ma42.8~μeV. The design of the cavity with hollow dielectric cylinders concentrically inserted in a OFHC Cu cavity, allowed us to maintain a loaded quality-factor Q 300000 during the measurements in presence of magnetic field. Through the cavity tuning mechanism it was possible to modulate the resonance frequency of the haloscope in the region 10.35337-10.35345~GHz and thus acquire different dataset at different resonance frequencies. Acquiring each dataset for about 50 minutes, combining them and correcting for the axion's signal estimation-efficiency we set a limit on the axion-photon coupling gaγγ< 0.731×10-13 GeV-1 with the confidence level set at 90\%.