Using a rotating magnetic guiding field for the 3He-129Xe-Comagnetometer

TL;DR

This paper presents a method using a rotating magnetic guiding field to enhance the measurement of nuclear spin precession in 3He and 129Xe atoms, aiming to detect non-magnetic spin-dependent interactions with improved sensitivity.

Contribution

It introduces an adiabatic rotation technique of the guiding magnetic field to modulate interactions and optimize relaxation times for better measurement precision.

Findings

Successful implementation of adiabatic field rotation

Enhanced transverse relaxation times T2* for Helium and Xenon

Potential for improved detection of non-magnetic interactions

Abstract

Our search for non-magnetic spin-dependent interactions is based on the measurement of free precession of nuclear spin polarized 3He and 129Xe atoms in a homogeneous magnetic guiding field of about 400 nT. We report on our approach to perform an adiabatic rotation of the guiding field that allows us to modulate possible non-magnetic spin-dependent interactions and to find an optimization procedure for long transverse relaxation times T2* both for Helium and Xenon.