磁强计
航向(导航)
光学
材料科学
光抽运
死区
物理
大地测量学
地质学
磁场
激光器
量子力学
海洋学
作者
Volkmar Schultze,Theo Scholtes,Florian Wittkämper,Ronny Stolz
标识
DOI:10.1109/jsen.2025.3579154
摘要
An optically pumped magnetometer is presented which is dedicated to sensitive measurements on mobile platforms within the Earth’s magnetic field. It features omnidirectional sensitivity based on amplitude-modulated optical pumping of two cesium vapor cells in perpendicular arrangement. The sensor’s heading error is remarkably suppressed in a differential scheme using two well-balanced circularly polarized laser beams of opposite helicity for each of the cells. In addition, a modulation of the spin-driving frequency eliminates potential systematic errors in sensor read-out due to demodulation phase shifts and instabilities. Within shielded environment, we demonstrate the omnidirectional sensing characteristics, in average a maximum heading error of 0.4 nT for arbitrary sensor orientation, and a noise-limited magnetic flux density resolution of 1.8 pT/√Hz within a sensor 3dB-bandwidth of 1 kHz.
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