Probing new scalars with the lepton anomalous magnetic moment and the weak equivalence principle violation (2501.13384v1)

Abstract: A new scalar particle with generic couplings to the standard-model particles is a possible source for the lepton anomalous magnetic moment and the violation of the weak equivalence principle. Here, one-loop contributions to the lepton anomalous magnetic moment, involving the scalar-photon and scalar-lepton couplings, are calculated. Then, with the recent experimental results of the electron anomalous magnetic moment, the muon anomalous magnetic moment, and the MICROSCOPE mission, we find that a scalar which couples merely to the photon or leptons can not be consistent with three experimental results. It has to couple to both the photon and leptons simultaneously. Improved constraints on scalar-lepton and scalar-photon couplings are set: $|\lambda_e|=(1.8-8.2)\times 10^{-6}$, $|\lambda_\mu|=(2.5-4.8)\times 10^{-4}$, and $|\lambda_\gamma|=(1.5-6.5)\times 10^{-14}$ ${\rm eV^{-1}}\, {\rm or}\,\, (1.4-6.1)\times 10^{-13}$ ${\rm eV^{-1}}$. We find that the naive scaling relationship between the scalar-muon coupling and the scalar-electron coupling is not favored by three experimental results. Furthermore, we show that the minimal standard-model extension by one scalar is also not favored for scalar mass below $10^4$ eV.