线极化Bell-Bloom测磁系统中抽运光对磁场灵敏度的影响

Influence of pump light on sensitivity of magnetometer based on linearly polarized Bell-Bloom structure

利用适用于线极化Bell-Bloom测磁系统的布洛赫方程和含有自旋弛豫的速率方程,以铯原子为研究对象,分析了抽运光对磁场灵敏度的影响,并在实验上分别采用与铯原子D1线和D2线共振的线偏光作为抽运光和探测光,用充有缓冲气体的气室进行了实验.实验结果与理论分析一致,均表明只有在一定的光强范围内,增大抽运光光强可以提高磁场灵敏度.且利用这一方法分析了原子的自旋弛豫对磁场灵敏度的影响.这项研究对于深入认识线极化的Bell-Bloom测磁系统,以及如何通过优化系统实现磁场灵敏度的提高具有重要的意义.

Magnetometry has already been widely used in mineral exploration,medical exploration and precision measurement physics.One is trying to improve the sensitivity of the magnetometer.One of the most widely used magnetometers is based on the Bell-Bloom structure,which can be realized by modulating the pump light.The sensitivity of the Bell-Bloom magnetometer is determined by the magnetic resonance linewidth(MRL)and the signal-to-noise under the condition of magnetic resonance(SNR).Both are affected by the pump intensity and the relaxation rate of the atoms.In order to achieve a higher sensitivity,how these factors affect the magnetic field measurement should be analyzed.In this paper,the influence of the pump light on the sensitivity of the linearly polarized Bell-Bloom magnetometer is investigated based on the Bloch equation with amplitude modulated pump beam and the rate equations with spin relaxation.The rate equations are obtained from the Liouville equation,and the theoretical analysis is based on the cesium.The pump beam is linearly polarized and is resonant to D1 transition of cesium.Both the direct pump(pump frequency is resonant to 62 S1/2 F=4-62 P1/2 F′=3 transition)and the indirect pump(pump frequency is resonant to 62 P1/2 F=3-62 P1/2 F′=4 transition)are analyzed.The experiment is performed based on a 20-mm cube cesium vapour cell with 20-Torr helium as buffer gas.The linearly polarized probe beam is tuned to resonance to cesium D2 transition62 P1/2 F=4-62 P3/2 F′=5,and the intensity of the probe is 0.2 W/m2.The spectra of magnetic resonance are measured by using the lock-in detection with a scanning of the modulation frequency.Then the sensitivity can be obtained by measuring MRL and SNR.The experimental results show that the sensitivity and the pump intensity are related nonlinearly,which is coincident with theoretical result.Higher sensitivity can be obtained under the condition of indirect pump.In addition,the effect of atomic spin relaxation on sensitivity is also analyzed with the indirect pump beam.This work clarifies the dynamics of the Bell-Bloom magnetometer to√some extent.The highest sensitivity obtained is 31.7 p T/■in our experiment,which can be optimized by using other kinds of vapour cells and different measuring methods.