The radiation emitted from axion dark matter in a homogeneous magnetic field, and possibilities for detection

Abstract

We study the direct radiation excited by oscillating axion (or axion-like particle) dark matter in a homogenous magnetic field and its detection scheme. We concretely derive the analytical expression of the axion-induced radiated power for a cylindrical uniform magnetic field. In the long wave limit, the radiation power is proportional to the square of the B-field volume and the axion mass ma, whereas it oscillate as approaching the short wave limit and the peak powers are proportional to the side area of the cylindrical magnetic field and ma-2. The maximum power locates at mass ma3π4R for fixed radius R. Based on this characteristic of the power, we discuss a scheme to detect the axions in the mass range 1-104\,neV, where four detectors of different bandwidths surround the B-field. The expected sensitivity for ma1\,μeV under typical-parameter values can far exceed the existing constraints.