利用光学时钟产生超低相位噪声微波

2004 IEEE International Topical Meeting on Microwave Photonics (IEEE Cat. No.04EX859) Pub Date : 2004-10-04 DOI:10.1109/MWP.2004.1412140

L. Hollberg, S. Diddams, A. Bartels, J. McFerran, E. Ivanov, G. Wilpers, C. Oates, W. Oskay, J. Bergquist

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引用次数: 5

摘要

稳频激光器在产生微波信号方面具有前所未有的稳定性和超低的相位噪声。我们报告了10 GHz微波信号的光学产生，其相位噪声接近载波，比使用最先进的微波源和高质量的微波合成器实现的效果要好> 40 dB。该方法将稳定的激光锁定在具有极高Q值的光学谐振器上，并且可以将频率长期控制在原子共振上。利用飞秒激光光频梳实现光分频器，将光频率相干地分频到微波范围

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Gereration of microwaves with ultra-low phase-noise from an optical clock

Frequency stabilized lasers have significant advantages for generating microwave signals with unprecedented stability and ultralow phase-noise. We report the optical generation of 10 GHz microwave signals with phase-noise close to the carrier that is > 40 dB better than achieved with state-of-the-art microwave sources and high quality microwave synthesizers. The method uses stable lasers locked to optical resonators that have extremely high Q's and the frequency can be steered in the longer term to atomic resonances. An optical frequency divider is implemented with a femtosecond laser based optical frequency comb, which coherently divides the optical frequency to the microwave range

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2004 IEEE International Topical Meeting on Microwave Photonics (IEEE Cat. No.04EX859)

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