MAC——一个微型原子钟

Proceedings of the 2005 IEEE International Frequency Control Symposium and Exposition, 2005. Pub Date : 2005-08-31 DOI:10.1109/FREQ.2005.1574029

R. Lutwak, P. Vlitas, Mathew Varghese, M. Mescher, D. Serkland, Gregory M. Peake

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引用次数: 76

摘要

作者正在开发一种芯片级原子钟(CSAC)，比任何现有技术都小两个数量级，功耗更低。作为一个中间里程碑，在通往最终CSAC目标的道路上，我们开发了一个微型原子钟(MAC)，将低功耗CSAC物理包与低部件数量，低功耗数字控制和微波系统相结合。MAC是一个完整的封装原子钟，整体尺寸为10 cm/sup 3/，功耗>200 mW，短期稳定性/spl sigma//sub y/(/spl tau/)/spl sim/4/spl times/10/sup -10//spl tau//sup - 1/2 /。MAC为CSAC物理包的进一步开发和改进以及CSAC控制电子设备的开发提供了一个有价值的测试平台，在进行昂贵且耗时的尺寸减小工作之前，这将是满足最终CSAC目标所必需的。MAC本身可能会在商业和军事授时系统中找到应用，这些系统现在需要MAC的相对较小的尺寸和功耗，而不是等待1厘米/sup 3/ 30兆瓦CSAC的发展。

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The MAC - a miniature atomic clock

The authors are developing a chip-scale atomic clock (CSAC), more than two orders of magnitude smaller and lower power than any existing technology. As an intermediate milestone, en route to the ultimate CSAC objectives, we have developed a miniature atomic clock (MAC), combining the low-power CSAC physics package with a low-parts count, low-power digital control and microwave system. The MAC is a complete packaged atomic clock, with overall size of 10 cm/sup 3/, power consumption >200 mW, and short-term stability /spl sigma//sub y/(/spl tau/)/spl sim/4/spl times/10/sup -10//spl tau//sup - 1/2 /. The MAC provides a valuable testbed for the further development and refinement of the CSAC physics package as well as for the development of the CSAC control electronics prior to undertaking the costly and time-consuming size-reduction effort which will be necessary to meet the ultimate CSAC objectives. The MAC itself may find applications in commercial and military timing systems which require the relatively small size and power consumption of the MAC now, rather than wait for the evolution of the 1 cm/sup 3/, 30 mW CSAC.

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Proceedings of the 2005 IEEE International Frequency Control Symposium and Exposition, 2005.

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