学术成果

当前位置: 首页 > 科学研究 > 学术成果 > 正文

Cheng-Gang Qin, Xiao-Yu Lu, Bing-Chen Zhao, et al.Constraining light scalar field with torsion-balance gravity experiments.Physics of the Dark Universe,2024,44, 101481.

作者: 来源: 发布时间:2024年11月18日 10:57 点击次数:[]

The light scalar field with a coupling to standard model particles provide a possible source of the longrange Yukawa forces or violation of the weak equivalence principle, which can be potentially explored by precision gravity experiments. We describe the searches for such light scalar fields with the three types of gravity experiments, including the G-measurement experiments, Inverse-Square Law (ISL) experiments, and equivalence principle experiments. We investigate the potential influences of the scalar field as a function of its mass, and focus on the experimental constraints from torsion-balance gravity experiments. HUST-18  G-measurement torsion-balance experiments place bounds on the photon coupling and electron coupling at up to ???? = 7 × 1017 GeV and ???? = 1 × 1017 GeV in the mass ranges 10−910−4eV. Results from the ISL experiments by the Universities of Washington, Stanford, IUPUI, HUST, Colorado, Irvine, Yale and others allow us to set limits on the photon coupling and electron coupling at up to ???? = 5 × 1017 GeV and ???? = 3 × 1016 GeV for scalar field mass ranges between 10−5 and 10−1eV. Additionally, we also discuss the limits from equivalence principle experiments, and MICROSCOPE final result updates the constrains on the coupling parameters at up to ???? = 7 × 1022 GeV and ???? = 4 × 1021 GeV for mass ranges 10−13eV. These results contribute experimental constraints to relatively unexplored mass regions of light scalar field parameter space and improve upon previous limits in some mass ranges. This work paves the way for long-range Yukawa forces mediated by light scalar fields in future high-precision gravity experiments.