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Correcting heading errors in optically pumped magnetometers through microwave interrogation

Atomic Physics 2024-07-08 v3

Abstract

We demonstrate how to measure in situ for heading errors of optically pumped magnetometers (OPMs) in the challenging parameter regime of compact vapor cells with imperfect optical pumping and high buffer gas pressure. For this, we utilize microwave-driven Ramsey and Rabi frequency spectroscopy (FS) to independently characterize scalar heading errors in free induction decay (FID) signals. Both of these approaches suppress 5-nT inaccuracies in geomagnetic fields caused by nonlinear Zeeman (NLZ) shifts in FID measurements to below 0.6 nT. For Ramsey FS, we implement short periods of microwave interrogation within a π/2tR3π/2\pi/2-t_R-3\pi/2 Ramsey interferometry sequence, effectively circumventing systematic errors from off-resonant driving. Conversely, Rabi FS leverages an atom-microwave Hamiltonian for accurate modeling of Rabi oscillation frequencies, achieving a measurement precision down to 80 pT/Hz/ \sqrt{\text{Hz}} that is limited primarily by technical microwave noise. We show that the fundamental sensitivity of Rabi FS is 30 pT/Hz\sqrt{\text{Hz}} with our vapor cell parameters through a Cram\'er-Rao lower bound (CRLB) analysis. This work paves the way for future investigations into the accuracy of hyperfine structure (HFS) magnetometry and contributes to the broader applicability of OPMs in fields ranging from navigation and geophysics to space exploration and unexploded ordinance detection, where heading error mitigation is essential.

Keywords

Cite

@article{arxiv.2310.11017,
  title  = {Correcting heading errors in optically pumped magnetometers through microwave interrogation},
  author = {Christopher Kiehl and Thanmay S. Menon and Dawson P. Hewatt and Svenja Knappe and Tobias Thiele and Cindy A. Regal},
  journal= {arXiv preprint arXiv:2310.11017},
  year   = {2024}
}

Comments

24 pages + 26 figures

R2 v1 2026-06-28T12:52:57.370Z