紧凑型原子磁力仪用三维补偿球形线圈

The 8th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems Pub Date : 2013-04-07 DOI:10.1109/NEMS.2013.6559815

C. Zhuo, H. Dong, L. Xuan

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引用次数: 1

摘要

为了避免矢量原子磁强计在无屏蔽环境下工作时塞曼共振的展宽，需要对矢量原子磁强计进行快速准确的磁补偿。提出了一种三维微型球面补偿系统，该系统可与芯片级原子磁强计配合使用，实现超高精度的磁场测量。基于场梯度法对参数进行了优化，在半半径范围内得到了10-3的均匀性，对尺寸变化有良好的容错能力。建立了应用于单光束方案的原型机，实验结果证明了该设计的有效性。

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Three dimensional compensation spherical coils for compact atomic magnetometers

To avoid the broadening of Zeeman resonances of the vector atomic magnetometer working in an unshielded environment, the rapid and accurate magnetic compensation is necessary. A three dimensional mini spherical compensating system is presented, which can be used together with a chip-scale atomic magnetometer to realize an ultra-high precision field measurement. Based on the field gradient method, parameters are optimized to obtain a uniformity of 10-3 over the region of one half radius with a good tolerance on dimensional variations. A prototype applied in the single laser beam scheme has been built and the experimental results demonstrate the validity of the design.

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The 8th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems

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