Related papers: Constraining Axion-to-Nucleon interaction via ultranarrow linewidth in the Casimir-less regime

Constraining Axion-to-Nucleon interaction via ultranarrow linewidth in the Casimir-less regime

URL: http://arxiv.org/abs/2107.08216v1
Date: Sat, 17 Jul 2021 10:39:46 GMT
Title: Constraining Axion-to-Nucleon interaction via ultranarrow linewidth in the Casimir-less regime
Authors: Lei Chen, Jian Liu, and Kadi Zhu
Abstract summary: We develop a quantum optical method to detect the axion-nucleon interaction. We translate the trapping positions of the nanosphere, resulting the shift of its resonance frequency. The frequency shift can be related to the additional forces due to two-axion exchange via substraction.
Score: 7.973708885357668
License: http://creativecommons.org/licenses/by/4.0/
Abstract: In this paper we develop a quantum optical method to detect the axion-nucleon interaction. We ultilize a levitated optomechanical system consisting of a silica nanosphere and an optical cavity here. We translate the trapping positions of the nanosphere, resulting the shift of its resonance frequency, which can be determined from measuring the resulting resonance shift in the transmission spectrum. Furthermore, The frequency shift can be related to the additional forces due to two-axion exchange via substraction. Based on noise ananlysis, estimation and calculation, we set the stringent prospective constraints for the coupling constants of axion-neucleon interaction $g_{an}$ and $g_{ap}$. In the case of $g_{an}^2 = g_{ap}^2$ , our constraints are most stringent at an ultrawide axion mass range approximately from $10^{-4}\mu eV$ to $10$ $eV$ .

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