We report on the implementation and metrological characterization of a vapour-cell Rb frequency standard working in a pulsed regime. The three main parts of the clock, physics package, optics and electronics, are described in detail in this paper. The prototype is designed and optimized to detect the clock transition in the optical domain. Specifically, the reference atomic transition, excited with a Ramsey scheme, is detected by observing the interference pattern on a laser absorption signal. The metrological analysis includes the observation and characterization of the clock signal and the measurement of frequency stability and drift. In terms of Allan deviation, the measured frequency stability is as low as 1.7 X 10~(-13) tau~(-1/2), tau being the averaging time, and reaches the value of a few units of 10~(-15) for tau velence 10~(4) s, an unprecedented result for a vapour-cell clock. We discuss the physical effects leading to this result in this paper with particular care to laser and microwave noises transferred to the clock signal. The frequency drift, probably related to temperature, stays below 10~(-14) per day, and no evidence of flicker floor is observed. We also mention some possible improvements that in principle would lead to a clock stability below the 10~(-13) level at 1 s and to a drift of a few units of 10~(-15) per day.
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机译:我们报告了在脉冲状态下工作的蒸气室Rb频率标准的实现和计量学表征。本文详细介绍了时钟的三个主要部分,即物理包,光学和电子学。设计并优化了原型,以检测光域中的时钟转换。具体而言,通过观察激光吸收信号上的干涉图来检测被拉姆齐(Ramsey)方案激发的参考原子跃迁。计量分析包括时钟信号的观察和表征以及频率稳定性和漂移的测量。就艾伦偏差而言,测得的频率稳定性低至1.7 X 10〜(-13)tau〜(-1/2),tau是平均时间,并达到10〜(-的几个单位的值15)对于tau velence 10〜(4)s,对于蒸气室时钟来说是空前的结果。我们在本文中讨论导致此结果的物理效应,尤其要注意转移到时钟信号上的激光和微波噪声。频率漂移可能与温度有关,每天保持在10〜(-14)以下,并且没有观察到闪烁的迹象。我们还提到了一些可能的改进,这些改进原则上会导致在1 s时时钟稳定性低于10〜(-13)的水平,并导致每天10〜(-15)个单位的漂移。
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