Muon spin force
Abstract
Current discrepancy between the measurement and the prediction of the muon anomalous magnetic moment can be resolved in the presence of a long-range force created by ordinary atoms acting on the muon spin via axial-vector and/or pseudoscalar coupling, and requiring a tiny, spin energy splitting between muon state polarized in the vertical direction. We suggest that an extension of the muon spin resonance (SR) experiments can provide a definitive test of this class of models. We also derive indirect constraints on the strength of the muon spin force, by considering the muon-loop-induced interactions between nuclear spin and external directions. The limits on the muon spin force extracted from the comparison of Hg/Hg and Xe/Xe spin precession are strong for the pseudoscalar coupling, but are significantly relaxed for the axial-vector one. These limits suffer from significant model uncertainties, poorly known proton/neutron spin content of these nuclei, and therefore do not exclude the possibility of a muon spin force relevant for the muon .
Cite
@article{arxiv.2308.01356,
title = {Muon spin force},
author = {Yohei Ema and Ting Gao and Maxim Pospelov},
journal= {arXiv preprint arXiv:2308.01356},
year = {2023}
}
Comments
5 pages, 1 figure + references and supplemental material