Quantum dual-path interferometry scheme for axion dark matter searches
Abstract
Exploring the mysterious dark matter is a key quest in modern physics. Currently, detecting axions, a hypothetical particle proposed as a primary component of dark matter, remains a significant challenge due to their weakly interacting nature. Here we show at quantum level that in a cavity permeated by a magnetic field, the single axion-photon conversion rate is enhanced by the cavity quality factor and is quantitatively larger than the classical result by . The axion cavity can be considered a quantum device emitting single photons with temporal separations. This differs from the classical picture and reveals a possibility for the axion cavity experiment to handle the signal sensitivity at the quantum level, e.g., a dual path quantum interferometry with cross-power and second-order correlation measurements. This scheme would greatly reduce the signal scanning time and improve the sensitivity of the axion-photon coupling, potentially leading to the direct observation of axions.
Cite
@article{arxiv.2201.08291,
title = {Quantum dual-path interferometry scheme for axion dark matter searches},
author = {Qiaoli Yang and Yu Gao and Zhihui Peng},
journal= {arXiv preprint arXiv:2201.08291},
year = {2024}
}
Comments
10 pages, 3 figures. Updated to match journal version