http://arxiv.org/abs/2201.08291
We propose a dual-path interferometry amplification configuration in the cavity axion dark matter searches. We show quantum-mechanically that, in a low temperature cavity permeated by a magnetic field, the single axion-photon conversion rate is enhanced by the cavity quality factor $Q$, which is consistent with the classical result. Under modern cryogenic conditions, thermal photons in the cavity are negligible, thus the axion cavity can be considered as a quantum device emitting single-photons with temporal separations. The correlation of photon field quadratures in the amplification chain, within current technology, enhances the single-to-noise ratio two orders of magnitude compared with single-path amplification scheme. This enhancement would greatly reduce the signal scanning time and improve the sensitivity of the axion-photon coupling.
Q. Yang, Y. Gao and Z. Peng
Fri, 21 Jan 22
42/60
Comments: 6 pages, 2 figures
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