期刊
JOURNAL OF PHYSICS D-APPLIED PHYSICS
卷 56, 期 13, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/1361-6463/acbd60
关键词
SERF co-magnetometer; transient response; probe beam; degree of circular polarization
In this paper, a theoretical model containing three parameters of the probe beam is established, and the influence of probe power density on the transient and steady-state response of the SERF co-magnetometer is analyzed. A new measurement method for transverse optical pumping of the probe beam is proposed based on the transient response model. A steady-state error suppression method is suggested by adjusting the degree of circular polarization of the probe beam in the steady-state response model. The suppression method is then used to refine the SERF co-magnetometer and achieve a suppression rate of 70.31% in transverse electron spin polarization fluctuations, improving the stability of the co-magnetometer to 0.0079(circle) h(-1).
Spin-exchange relaxation-free (SERF) co-magnetometers have promising applications in both inertial navigation and fundamental physics experiments. However, the fluctuation in the spin polarization caused by the probe beam has a non-negligible influence on the co-magnetometer signal. In this paper, a theoretical model containing three parameters of the probe beam is established by extending the coupled Bloch equation. Based on this model, the influence of probe power density on the transient and steady-state response of the SERF co-magnetometer is analyzed. According to the transient response model, a new measurement method for transverse optical pumping of the probe beam is proposed. Then, for the steady-state response model, a steady-state error suppression method is suggested by adjusting the degree of circular polarization of the probe beam. Eventually, the suppression method is used to refine the SERF co-magnetometer, achieving a suppression rate of 70.31% in transverse electron spin polarization fluctuations, thus improving the co-magnetometer to a stability of 0.0079(circle) h(-1). To our knowledge, this is better than what has been reported so far.
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