Broadband Search for Axion Dark Matter via Shift Current

Abstract

We propose a novel method to detect axion dark matter based on a topological phenomenon known as the shift current. We exploit the second-order nonlinearity of the shift current by applying a strong oscillating electric field. This field enhances the axion-induced shift current signal and downconverts its frequency to a more accessible range. The non-dissipative nature of the shift current allows us to achieve broadband detection via difference frequency generation. We demonstrate, using Type-I Weyl semimetal TaAs property, the possibility of probing the parameter space of the QCD axion in the mass range of O(10) - O(100) \ meV corresponding to the photon coupling of gaγγ O(10-12) - O(10-11)~GeV-1, respectively.