两个铷原子钟在方向变化磁场中的定位误差补偿

2021 International Conference on Electrical Engineering and Photonics (EExPolytech) Pub Date : 2021-10-14 DOI:10.1109/EExPolytech53083.2021.9614899

S. Ermak, V. Semenov

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引用次数: 0

摘要

本文考虑了补偿由两个小尺寸铷原子钟组成的系统的定向频率误差的可能性，这种误差是由所使用的磁屏蔽的纵向和横向屏蔽系数的差异引起的。我们给出了两个平均频率的铷原子钟的取向位移测量结果，它们被放置在一个方向变化的0.45 Oe的外磁场中。结果表明，当系统中器件的光轴方向相反时，可以显著抑制平均频率方向位移(超过4倍)。

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Orientation Error Compensation for a system of Two Rubidium Atomic Clocks Placed in a Directionally Varying Magnetic Field

This paper considers the possibility of compensating for the orientation frequency error of a system of two small-sized rubidium atomic clocks caused by the difference between the longitudinal and transverse screening coefficients of the magnetic shield used. We present the results of orientation displacement measurements of two rubidium atomic clocks of averaged frequency, placed in an external magnetic field of 0.45 Oe, varying in direction. It is shown that with oppositely directed optical axes of the devices in the system, a significant suppression (more than 4 times) of the averaged frequency orientation shift is provided.

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2021 International Conference on Electrical Engineering and Photonics (EExPolytech)

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