FID Magnetometer Based on Paraffin-Coated Planar Reflective Multipass Cells

Abstract

We demonstrate a paraffin-coated planar reflective multipass vapor cell for compact optical atomic magnetometry. The cell has an internal volume of 12 × 12 × 8~mm3 and supports 20 optical passes with a total transmittance exceeding 65\%, while maintaining a longitudinal spin-relaxation time of 87Rb longer than 1~s. The planar geometry provides spatially separated input and output beams, enabling compact optical integration. A single-cell free-induction-decay (FID) magnetometer reaches 10~pT/Hz in the geomagnetic-field range, presently limited by current-source noise in the field coils. A two-cell differential configuration achieves a sensitivity of 28~fT/Hz over the 1--15~Hz band for bias fields of 0.3--0.7~G. These results establish that paraffin-coated planar multipass cells offer high optical depth, long coherence times, and an integration-friendly platform for ultrasensitive magnetometry.