Progress Toward a 10-15 Stable Ion Clock for Deep Space Applications

J. Prestage, S. Chung, T. Le, L. Lim, L. Maleki
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引用次数: 1

Abstract

The authors have recently completed a breadboard ion-clock physics package based on Hg ions shuttled between a quadrupole and a 16-pole rf trap. With this architecture the authors have demonstrated short-term stability ~2-3times10-13 at 1 second, averaging to 10-15 at 1 day. This development shows that H-maser quality stabilities can be produced in a small clock package, comparable in size to an ultra-stable quartz oscillator required for holding 1-2times10 -13 at 1 second. This performance was obtained in a sealed vacuum configuration where only a getter pump was used to maintain vacuum. The vacuum tube containing the traps has now been under sealed vacuum conditions for nearly a year with no measurable degradation of ion trapping lifetimes or clock short-term performance. We have fabricated the vacuum tube, ion trap and UV windows from materials that will allow a ~400 C tube bake-out to prepare for tube seal-off. This approach to the vacuum follows the methods used in flight vacuum tube electronics, such as flight TWTA's where tube operation lifetime and shelf life of up to 15 years is achieved. They use neon as a buffer gas with 2-3 times less pressure induced frequency pulling than helium and, being heavier, negligible diffusion losses will occur over the operation lifetime
用于深空应用的10-15稳定离子钟的进展
作者最近完成了一个基于汞离子在四极和16极射频阱之间穿梭的面包板离子时钟物理包。通过这种架构,作者已经证明了短期稳定性:1秒内2-3次10-13次,1天内平均10-15次。这一发展表明,h脉塞质量稳定性可以在一个小的时钟封装中产生,其尺寸与在1秒内保持1-2times10 -13所需的超稳定石英振荡器相当。这种性能是在密封真空配置中获得的,其中仅使用吸气泵来保持真空。包含陷阱的真空管现在已经在密封真空条件下放置了近一年,离子捕获寿命或时钟短期性能没有可测量的退化。我们已经制造了真空管,离子阱和紫外线窗口的材料,将允许~400℃的管烘烤,为管密封做准备。这种真空方法遵循飞行真空管电子设备中使用的方法,例如飞行TWTA的真空管操作寿命和保质期可达15年。他们使用氖气作为缓冲气体,其压力诱导的频率拉力比氦气小2-3倍,并且由于较重,在操作寿命期间发生的扩散损失可以忽略不计
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