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Electrometry of extremely-low frequencies from kHz to sub-Hz with a Rydberg-atom sensor

Published 14 Mar 2026 in quant-ph, physics.app-ph, and physics.atom-ph | (2603.13827v1)

Abstract: Rydberg-atom electric field sensing has shown great potential from near-DC to THz with state-of-the-art measurement metrics realized in sensitivity, phase extraction, multi-band receptivity, etc. While Rydberg-atom sensors have shown exceptional performance in the GHz regime, low-frequency operation has remained challenging because of electric-field-screening in conventional vapor cells, which suppresses externally applied fields. We overcome this limitation by combining auxiliary modulation and lock-in detection with a paraffin-coated vapor cell, and demonstrate an electrode-free, wideband method for sensing frequencies, ranging from 0.5 Hz to 10 kHz. Our work extends Rydberg-atom sensor range to VLF, ULF, SLF, ELF and sub-ELF frequency bands. In our method, high state-of-the-art sensitivities have been achieved - 819 $μ$V/cm/$\sqrt{\text{Hz}}$ for 1 Hz, 33 $μ$V/cm/$\sqrt{\text{Hz}}$ for 10 Hz, 10 $μ$V/cm/$\sqrt{\text{Hz}}$ for 100 Hz and 2 $μ$V/cm/$\sqrt{\text{Hz}}$ for 1 kHz.

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