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Laser optical pumping in Rb vapour-cell atomic clocks

机译:Rb蒸气细胞原子钟中的激光光学泵浦

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摘要

We discuss the basic physical principles of laser optical pumping double-resonance spectroscopy, which form the basis of state-of-the-art vapour-cell atomic frequency standards using laser optical pumping of Rb atoms. The main effects limiting the frequency stability of Rb vapour-cell atomic clocks are identified, and their impact on the development of high-performance frequency standards and their transfer from research laboratories to industry and space is discussed. As examples, the impact of the AC Stark effect and the related issue of laser frequency stabilisation are dealt with in more detail. The main features of the present state-of-the-art Rb atomic frequency standards will be illustrated using the example of the development of atomic clocks for satellite navigation and positioning systems (GPS, GLONAS, GALILEO, etc.), as well as some directions for further improvements that could overcome present day limitations. Such compact Rb clocks find their applications in, for example, telecommunications, local timekeeping and synchronisation, and space applications like satellite navigation and science missions. An overview of other, alternative clock schemes is given and critical issues for future developments towards further performance improvement or device miniaturisation in the field of vapour-cell atomic clocks are discussed.
机译:我们讨论了激光泵浦双共振光谱学的基本物理原理,这些原理构成了使用Rb原子激光泵浦的最先进的气室原子频率标准的基础。指出了限制Rb真空电池原子钟频率稳定性的主要影响,并讨论了它们对高性能频率标准的发展及其从研究实验室到工业和太空的转移的影响。作为示例,将更详细地讨论AC Stark效应的影响和相关的激光频率稳定问题。将以开发卫星导航和定位系统(GPS,GLONAS,GALILEO等)原子钟的示例为例,说明当前最新的Rb原子频率标准的主要特征。可以克服当前限制的进一步改进的方向。这样的紧凑型Rb时钟可在电信,本地计时和同步以及卫星导航和科学任务等太空应用中找到其应用。给出了其他替代时钟方案的概述,并讨论了未来在气室原子钟领域中进一步提高性能或使设备小型化的关键问题。

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