Related papers: Constraints on Velocity and Spin Dependent Exotic Interaction at the Millimeter Scale with a Diamagnetic-levitated Force Sensor

Constraints on Velocity and Spin Dependent Exotic Interaction at the Millimeter Scale with a Diamagnetic-levitated Force Sensor

URL: http://arxiv.org/abs/2503.20270v2
Date: Mon, 31 Mar 2025 08:20:34 GMT
Title: Constraints on Velocity and Spin Dependent Exotic Interaction at the Millimeter Scale with a Diamagnetic-levitated Force Sensor
Authors: Kenan Tian, Yuanji Sheng, Rui Li, Lei Wang, Peiran Yin, Shaochun Lin, Dingjiang Long, Chang-Kui Duan, Xi Kong, Pu Huang, Jiangfeng Du,
Abstract summary: Light bosons can mediate velocity and spin dependent exotic interaction between electron spins and nucleons.<n>We present a method based on diamagnetic-levitated force sensor to detect the exotic interaction at the millimeter scale.
Score: 7.476011077213004
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Light bosons, beyond the standard model and as prominent candidates for dark matter, can mediate velocity and spin dependent exotic interaction between electron spins and nucleons. At short ranges, it remains an open challenge to test this exotic interaction with high precision. Here, we present a method based on diamagnetic-levitated force sensor to detect the exotic interaction at the millimeter scale. Improved constraints for the coupling $g_A^e g_V^N$ are established, within the force range spanning from 0.15 mm to 1.5 mm. And the constraint $|g_A^e g_V^N| \leq 4.39 \times10^{-26}$ at $\lambda$ = 0.5 mm at the $95 \%$ confidence level, significantly surpasses previous results by more than three orders of magnitude. The diamagnetic levitation force measurement system developed here can also be repurposed to probe other exotic spin-dependent interactions, such as the exotic spin-spin interaction. This system provides a platform for the exploration of dark matter.

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