A <i>τ</i>−1 measurement across three orders of magnitude based on an atomic spin precession magnetometer in self-sustaining mode

The spin self-sustaining atomic magnetometer has the advantage of 1/τ measurement and great development potential in many applications. In this paper, we investigated the main elements that affect the stability and accuracy of the self-sustaining magnetometer and proposed the methods to improve its performance based on the measurement results. The correlation coefficient between fluctuations of the magnetic field generated by coils and the spin Larmor precession frequency is 0.97, which mainly dominates the stability in a short term. The accuracy of the magnetometer is affected by the power and frequency of the pump light. The Larmor precession frequency coefficient related to the pump light power is 26 mHz/mW, and the effect on the Larmor precession frequency is minimized when the pump light frequency is red detuned by 200 MHz from the 85Rb transition D1 line F = 3 to F′ = 3. The 1/τ measurement time after these corrections can be extended to 10 s, and the sensitivity achieved is 149 fT/Hz, which is close to the quantum projection noise limit of the system.

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Investigation and improvement of the spin self-sustaining magnetometer

Zhao

Fan

Wang

et al. 2020

AIP Advances

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A τ−1 measurement across three orders of magnitude based on an atomic spin precession magnetometer in self-sustaining mode

Cited by 1 publication

References 17 publications

Investigation and improvement of the spin self-sustaining magnetometer

Investigation and improvement of the spin self-sustaining magnetometer

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