Most optically pumped magnetometers based on alkali atom vapor cells and pumped by a single narrow-band laser suffer from a loss of signal since atoms become trapped in the ground hyperfine states that are not coupled to the laser beam. This can be counteracted by additional optical repumping of these ground-state levels. We study hyperfine repumping using cesium vapor cells with partly overlapped ground-state splitting due to their nitrogen buffer-gas filling. We implement two methods of repumping and compare them to the conventional case of F = 4 pumping: F = 3 repumping with an additional repumper laser and combined pumping/repumping in the light-narrowing mode, where a single high-power laser is tuned near the F = 3 transitions. All these modes are investigated for two different methods of spin-phase synchronization: the M-x and intensity modulation methods. For both methods, any kind of repumping results in a clear improvement of the magnetometer sensitivity compared to no repumping, but in the M-x mode it is more pronounced (about 50 versus 200 fT/root Hz for a 50 mm(3) Cs vapor cell). The mechanisms responsible for the distinct results in the different working modes are discussed. (C) 2015 Optical Society of America
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机译:大多数基于碱原子蒸气池并由单个窄带激光器泵浦的光学泵浦磁力计都会遭受信号损失,因为原子陷入了未耦合至激光束的超精细基态。这可以通过这些基态电平的附加光学反接来抵消。我们研究了使用铯蒸气电池进行超细粉浆再吸收的情况,这些电池由于其氮气缓冲气体填充而具有部分重叠的基态分裂。我们实现了两种抽水方法,并将它们与F = 4抽运的常规情况进行了比较:F = 3抽水与附加的抽水机激光器以及在窄光模式下组合抽运/抽水,其中单个高功率激光器在附近调谐F = 3个转换。针对自旋相位同步的两种不同方法研究了所有这些模式:M-x和强度调制方法。对于这两种方法,与不进行泵送相比,任何类型的泵送都会明显提高磁力计的灵敏度,但是在Mx模式下,它更为明显(对于50 mm(3)Cs蒸汽电池,其约为50 vs 200 fT / root Hz )。讨论了在不同工作模式下导致不同结果的机制。 (C)2015年美国眼镜学会
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