Optimisation of a radio-frequency atomic magnetometer: a Uniform Design approach

High-sensitivity operation of a radio-frequency atomic magnetometer (RF-AM) requires careful setting of the system parameters, including the lasers intensity and detuning, and the vapour cell temperature. The identification of the optimal operating parameters, which ensures high sensitivity, is typically performed empirically and is often a lengthy process, which is especially labour intensive if frequent retuning of the magnetometer is required to perform different tasks. This paper demonstrates an efficient approach to RF-AM performance optimisation which relies on an open-loop optimisation technique based on Uniform Design (UD). This paper specifically describes the optimisation of an unshielded RF-AM based on a 4-factor-12-level UD of the experimental parameters space. The proposed procedure is shown to lead to the efficient optimisation of the atomic magnetometer at different frequencies, and is applicable to both AC and DC sensitivity optimisation. The procedure does not require any detailed knowledge of the model underlying the operation of the RF-AM and is effective in reducing the number of experimental runs required for the optimisation. It is ideally suited to self-calibration of devices without human supervision. Published by Optica Publishing Group under the terms of the Creative Commons Attribution 4.0 License.

Automated summary

This paper presents an efficient approach for optimizing the performance of a radio-frequency atomic magnetometer (RF-AM) using an open-loop optimization technique based on Uniform Design (UD). The proposed method allows for the efficient optimization of the atomic magnetometer at different frequencies, and is applicable to both AC and DC sensitivity optimization. It does not require detailed knowledge of the underlying operation model and reduces the number of experimental runs required. It is particularly suitable for self-calibration of devices without human supervision.