New method of probing an oscillating EDM induced by axionlike dark matter using an RF Wien Filter in storage rings

TL;DR

This paper introduces a new technique using an RF Wien Filter in storage rings to detect axion-like dark matter through its induced oscillating electric dipole moments in particles.

Contribution

It proposes a novel experimental approach to probe axion-induced oscillating EDMs using RF Wien Filters, supported by analytical and simulation validation.

Findings

The method can generate spin resonance at axion and g-2 frequency sidebands.

Systematic studies suggest minimal impact from Wien Filter misalignment.

The approach offers a new pathway for dark matter detection in particle physics.

Abstract

A hypothetical pseudo-scalar particle axion, which is an immediate result of the Peccei-Quinn solution to the strong CP problem, may couple to gluons and lead to an oscillating electric dipole moment (EDM) of fundamental particles. This paper proposes a novel method of probing the axion-induced oscillating EDM in storage rings, using a radiofrequency (RF) Wien Filter. The Wien Filter at the frequency of the sidebands of the axion and $g-2$ frequency, $f_\text{axion} \pm f_{g-2}$, generates a spin resonance in the presence of an oscillating EDM, as confirmed both by an analytical estimation of the spin equations and independently by simulation. A brief systematic study also shows that this method is unlikely to be limited by Wien Filter misalignment issues.