Heading Error Compensation in a Portable Optical Magnetometer Using a Double-Pass Single Beam Configuration

TL;DR

This paper introduces a portable optical magnetometer with a double-pass single-beam setup that significantly reduces heading errors, improves signal strength, and enables miniaturization for Earth-field applications.

Contribution

The paper presents a novel double-pass single-beam configuration that reduces heading errors and enhances signal interaction in portable optical magnetometers.

Findings

Significant reduction in heading error compared to traditional setups

Enhanced signal due to increased laser-cell interaction length

Potential for miniaturized, robust sub-pT magnetic sensors

Abstract

Optically pumped magnetometers are ultra-sensitive devices, but this sensitivity can significantly degrade due to heading errors, whereby a change in the angle between the pumping laser and the magnetic field translates to a change in the magnetic field readout. We present a portable all-optical single-beam magnetometer with a reduced heading error due to a double-pass configuration. We analyze it both theoretically and experimentally. In addition to this significant improvement in performance, the increased interaction length of the laser with the cell enhances the signal. Overall, the new configuration enables better accuracy, as well as the reduction of the cell temperature, laser power, and further miniaturization of the sensing head. This work opens the door for a simple and robust sub-pT portable sensor in Earth field.