Coherent optical clock down-conversion for microwave frequencies with 10~(-18) instability

Nakamura Takuma; Davila-Rodriguez Josue; Leopardi Holly; Sherman Jeff A.; Fortier Tara M.; Xie Xiaojun; Campbell Joe C.; McGrew William F.; Zhang Xiaogang; Hassan Youssef S.; Nicolodi Daniele; Beloy Kyle; Ludlow Andrew D.; Diddams Scott A.; Quinlan Franklyn

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Coherent optical clock down-conversion for microwave frequencies with 10~(-18) instability

机译：用于微波频率的相干光学时钟下转换，具有10〜（-18）不稳定性

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Optical atomic clocks are poised to redefine the Systeme International (SI) second, thanks to stability and accuracy more than 100 times better than the current microwave atomic clock standard. However, the best optical clocks have not seen their performance transferred to the electronic domain, where radar, navigation, communications, and fundamental research rely on less stable microwave sources. By comparing two independent optical-to-electronic signal generators, we demonstrate a 10-gigahertz microwave signal with phase that exactly tracks that of the optical clock phase from which it is derived, yielding an absolute fractional frequency instability of 1 x 10(-18) in the electronic domain. Such faithful reproduction of the optical clock phase expands the opportunities for optical clocks both technologically and scientifically for time dissemination, navigation, and long-baseline interferometric imaging.

机译：光学原子钟准备重新定义Systeme International（SI）第二，由于稳定性和准确性超过当前的微波原子时钟标准超过100倍。然而，最好的光学时钟没有看到它们的性能转移到电子领域，其中雷达，导航，通信和基础研究依赖于较稳定的微波来源。通过比较两个独立的光学到电子信号发生器，我们展示了一个10-Gigahertz微波信号，其精确地跟踪其导出的光学时钟阶段的相位，产生1×10的绝对分数频率不稳定性（-18 ）在电子领域。这种忠实的光学时钟阶段的繁荣再现扩展了技术和科学地对时间传播，导航和长基线干涉成像的光学时钟的机会。

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《Science》 |2020年第6493期|889-892|共4页
作者
Nakamura Takuma; Davila-Rodriguez Josue; Leopardi Holly; Sherman Jeff A.; Fortier Tara M.; Xie Xiaojun; Campbell Joe C.; McGrew William F.; Zhang Xiaogang; Hassan Youssef S.; Nicolodi Daniele; Beloy Kyle; Ludlow Andrew D.; Diddams Scott A.; Quinlan Franklyn;
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NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA|Univ Colorado Dept Phys 440 UCB Boulder CO 80309 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA|Univ Colorado Dept Phys 440 UCB Boulder CO 80309 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA|Univ Colorado Dept Phys 440 UCB Boulder CO 80309 USA;

Univ Virginia Dept Elect & Comp Engn Charlottesville VA 22904 USA;

Univ Virginia Dept Elect & Comp Engn Charlottesville VA 22904 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA|Univ Colorado Dept Phys 440 UCB Boulder CO 80309 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA|Univ Colorado Dept Phys 440 UCB Boulder CO 80309 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA|Univ Colorado Dept Phys 440 UCB Boulder CO 80309 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA|Univ Colorado Dept Phys 440 UCB Boulder CO 80309 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA|Univ Colorado Dept Phys 440 UCB Boulder CO 80309 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA|Univ Colorado Dept Phys 440 UCB Boulder CO 80309 USA;

NIST Time & Frequency Div 325 Broadway Boulder CO 80305 USA|Univ Colorado Dept Phys 440 UCB Boulder CO 80309 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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专利

1. Frequency comb-based microwave transfer over fiber with 7×10~(-19) instability using fiber-loop optical-microwave phase detectors [J] . Kwangyun Jung, Junho Shin, Jinho Kang, Optics Letters . 2014,第6期

机译：基于频率梳的不稳定性为7×10〜（-19）的光纤环路光纤微波相位检测器
2. Frequency comb-based microwave transfer over fiber with 7×10~(-19) instability using fiber-loop optical-microwave phase detectors [J] . Kwangyun Jung, Junho Shin, Jinho Kang, Optics Letters . 2014,第6期

机译：基于频率梳的不稳定性为7×10〜（-19）的光纤环路光纤微波相位检测器
3. Femtosecond optical-to-microwave frequency divider with a relative instability of 10(-14)-10(-16) (tau=1-100 s) [J] . Kireev A. N., Tausenev A. V., Tyurikov D. A., Quantum electronics . 2016,第12期

机译：飞秒光学-微波分频器，相对不稳定性为10（-14）-10（-16）（tau = 1-100 s）
4. Optical frequency comb divider for microwaves with 10-18 absolute instability [C] . Takuma Nakamura, Josue Davila-Rodriguez, Holly Leopardi, IEEE Photonics Conference . 2020

机译：绝对不稳定性为10-18的微波光梳
5. Ticking Near the Zero-Point Energy: towards 1 x 10 -18 Accuracy in Al+ Optical Clocks [D] . Chen, Jwo-Sy. 2017

机译：在零点能量附近滴答滴答：Al +光学时钟的精度达到1 x 10 -18
6. Tight real-time synchronization of a microwave clock to an optical clock across a turbulent air path [O] . Hugo Bergeron, Laura C. Sinclair, William C. Swann, -1

机译：微波时钟与光学时钟在湍流空气路径上的紧密实时同步
7. Coherent optical clock down-conversion for microwave frequencies with 10−18 instability [O] . Takuma Nakamura, Josue Davila-Rodriguez, Holly Leopardi, 2020

机译：用于10-18不稳定性的微波频率的相干光学时钟下转换
8. Atomic Clock with 10 (exp -18) Instability. [R] . Hinkley, N., Sherman, J. A., Phillips, N. B., 2013

机译：原子钟10（exp -18）不稳定。

Coherent optical clock down-conversion for microwave frequencies with 10~(-18) instability

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