The development of active optical clock

Jia Zhang, Tiantian Shi, Jianxiang Miao, Jingbiao Chen
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Abstract

The atomic clocks, whether operating at optical or microwave region, can be divided into two categories according to their working mode, namely the passive clocks and active clocks. The passive clocks, whose standard frequency is locked to an ultra-narrow atomic spectral line, such as laser cooled Cs beam or lattice trapped Sr atoms, depend on the spontaneous emission line. On the contrary, the active clocks, in which the atoms are used as the gain medium, are based on the stimulated emission radiation, their spectrum can be directly used as the frequency standard. Up to now, the active hydrogen maser has been the most stable microwave atomic clocks. Also, the Sr superradiant active atomic clock is prospects for a millihertz-linewidth laser. Moreover, the optical clocks are expected to surpass the performance of microwave clocks both in stability and uncertainty, since their higher working frequency. The active optical clock has the potential to improve the stability of the best clocks by 2 orders of magnitude. In this work, we introduce the development of active optical clocks, and their types is classified according to the energy-level structure of atoms for stimulated radiation.

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有源光学时钟的发展
无论是工作在光学区还是微波区的原子钟,都可以根据其工作模式分为两类,即被动钟和主动钟。被动时钟的标准频率锁定在超窄原子谱线上,如激光冷却的铯束或晶格捕获的锶原子,其频率取决于自发辐射线。相反,以原子为增益介质的有源时钟则以受激发射辐射为基础,其光谱可直接用作频率标准。迄今为止,有源氢 maser 一直是最稳定的微波原子钟。同时,锶超辐射有源原子钟在毫赫兹线宽激光方面也具有广阔的前景。此外,由于工作频率较高,光学时钟有望在稳定性和不确定性方面超越微波时钟。有源光学时钟有可能将最佳时钟的稳定性提高两个数量级。在这项工作中,我们介绍了有源光学钟的发展,并根据受激辐射原子的能级结构对其类型进行了分类。
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