Pulsed optical pumping in a Rb vapor cell using a compact magnetron-type microwave cavity

2014 European Frequency and Time Forum (EFTF) Pub Date : 2014-06-23 DOI:10.1109/EFTF.2014.7331559

Songbai Kang, C. Affolderbach, F. Gruet, M. Gharavipour, C. Calosso, G. Mileti

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引用次数: 5

Abstract

A compact magnetron-type microwave cavity has previously been developed for a high performance Rb atomic clock based on conventional continuous-wave double-resonance (DR) interrogation. This magnetron-type cavity shows a homogenous microwave field distribution while having a cavity volume of only 35 cm3. So it is interesting for realizing a high performance Rb cell clock based on pulsed optical pumping (POP) technique with a reduced physics package size. In this proceeding we report on the evaluation of pulsed optical pumping with our magnetron-type cavity. Using the pulsed technique and optical detection, high-contrast Ramsey fringes were observed. The central fringe of the Ramsey signal has a linewidth of 160 Hz and contrast of 35%. Under these conditions, the shot-noise limit is estimated at a level around 2×10-14 τ-1/2 which shows the great potential of a POP clock based on the compact magnetron-type cavity. The Rabi oscillation result also indicates an acceptable uniform field distribution inside the cavity for a high-performance POP clock. Some optimizations of pumping and detection power for improving the contrast are also presented.

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利用紧凑磁控管型微波腔在铷蒸气池中进行脉冲光泵浦

一种紧凑的磁控管型微波腔已被开发用于高性能的基于传统连续波双共振(DR)探测的铷原子钟。该磁控管型腔具有均匀的微波场分布，而腔体体积仅为35 cm3。因此，实现一种基于脉冲光泵浦(POP)技术且物理封装尺寸较小的高性能Rb细胞时钟是很有意义的。在本文中，我们报告了用我们的磁控管型腔对脉冲光泵浦的评价。利用脉冲技术和光学检测，观察到高对比度的拉姆齐条纹。拉姆齐信号的中心边缘线宽为160赫兹，对比度为35%。在这些条件下，脉冲噪声极限估计在2×10-14 τ-1/2左右，这显示了基于紧凑磁控管型腔的POP时钟的巨大潜力。拉比振荡结果还表明，对于高性能POP时钟来说，腔内的均匀场分布是可以接受的。为了提高对比度，还对泵送和检测功率进行了优化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 European Frequency and Time Forum (EFTF)

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