Predicting outcomes of electric dipole and magnetic moment experiments

V. G. Baryshevsky; P. I. Porshnev

arXiv:2104.12230·hep-ph·February 23, 2022

Predicting outcomes of electric dipole and magnetic moment experiments

V. G. Baryshevsky, P. I. Porshnev

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TL;DR

This paper explores how pseudoscalar corrections due to $T(CP)$-noninvariance can explain discrepancies in muon $(g-2)$ measurements by analyzing electric dipole and magnetic moment experiments.

Contribution

It introduces a pseudoscalar correction framework to account for $T(CP)$-noninvariance effects in spin motion, providing a new explanation for the muon $(g-2)$ anomaly.

Findings

01

Pseudoscalar corrections can account for the muon $(g-2)$ discrepancy.

02

The framework links $T(CP)$-noninvariance to experimental outcomes.

03

Potential new avenues for testing $T(CP)$-violation effects.

Abstract

The anomalous magnetic and electric dipole moments in spin motion equation acquire pseudoscalar corrections if the $T (C P)$ -noninvariance is admitted. It allows to explain the discrepancy between experimental and theoretical values of muon $(g - 2)$ factor under assumption that the pseudoscalar correction is the dominant source of this discrepancy.

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