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Frequency stabilization of semiconductor lasers for onboard interferometers using both Rb-saturated absorption profiles anddouble-optical feedback systems

机译：使用Rb饱和吸收曲线和双光反馈系统的车载干涉仪半导体激光器的频率稳定化

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The precise interferometric systems employed in today's artificial satellites require semiconductor lasers of the highest caliber. To this end, efforts to stabilize their oscillation frequencies and narrow spectrum line-widths continue relentlessly. While a number of different approaches have been tested, none have provided overall, long-term stability. Most recently, we employed a Doppler-free absorption line of Rb atoms, with a precision temperature controller and an improved laser mount. In this instance, relative optical frequency stability rated 9.07×10~(-13)≤σ(2,τ)≤7.54×10~(-10) , in averaging time for 0.01s≤τ≤23s. By introducing an optical feedback, which narrows the laser's linewidth, we obtained improved frequency stability.

机译：当今的人造卫星中使用的精确干涉仪系统需要口径最高的半导体激光器。为此，稳定其振荡频率和窄谱线宽的努力仍在继续。尽管已经测试了许多不同的方法，但是没有一种方法可以提供总体的长期稳定性。最近，我们采用了无多普勒的Rb原子吸收线，并配有精确的温度控制器和改进的激光器安装座。在这种情况下，在0.01s≤τ≤23s的平均时间内，相对光频率稳定度为9.07×10〜（-13）≤σ（2，τ）≤7.54×10〜（-10）。通过引入光学反馈，可以缩小激光器的线宽，从而提高了频率稳定性。

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《Conference on Space Telescopes and Instrumentation》|2008年|97-98|共10页
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作者
K. Nakano; S. Maehara; M. Yanagisawa; A. Sato; K. Doi; T. Sato; M. Ohkawa; T. Maruyama; S. Kawamura;
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中图分类天文光学望远镜;天文望远镜;
关键词
semiconductor lasers; frequency stabilization; optical feedback; artificial satellites;

机译：半导体激光器;稳频;光反馈;人造卫星;

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专利

1. DFB semiconductor diode laser frequency stabilization employing electronic feedback and Bragg grating Fabry-Perot interferometer [J] . Winnall S.T., Lindsay A.C. IEEE Photonics Technology Letters . 1999,第11期

机译：采用电子反馈和布拉格光栅Fabry-Perot干涉仪的DFB半导体二极管激光器频率稳定
2. Dynamics and chaos stabilization of semiconductor lasers with optical feedback from an interferometer [J] . Yun Liu, Ohtsubo J. IEEE Journal of Quantum Electronics . 1997,第7期

机译：来自干涉仪的光反馈，半导体激光器的动力学和混沌稳定性
3. Oscillation frequency stabilization of a semiconductor laser using the faraday effect of the Rb absorption line - frequency stabilization using the PEAK method and its evaluation [J] . Shinichi Ito, Toshiya Nimonji, Takashi Saga, 電子情報通信学会技術研究報告. レ-ザ·量子エレクトロニクス. Lasers and Quantum Electronics . 2002,第117期

机译：利用Rb吸收线的法拉第效应稳定半导体激光器的振荡频率-用PEAK方法稳定频率及其评估
4. Frequency stabilization of a semiconductor laser using both Rb saturated absorption profiles and double optical feedback systems [C] . K. Nakano, S. Maehara, M. Yanagisawa, Conference on Advanced Materials and Devices for Sensing and Imaging . 2008

机译：使用RB饱和吸收型和双光反馈系统的半导体激光器的频率稳定
5. Terahertz local oscillator via difference frequency generation in iii-v semiconductors using frequency stabilized lasers. [D] . Herman, Greg S. 2013

机译：太赫兹本地振荡器，通过使用稳频激光器在iii-v半导体中通过产生差频来实现。
6. Real-time frequency dynamics and high-resolution spectra of a semiconductor laser with delayed feedback [O] . Daniel Brunner, Xavier Porte, Miguel C. Soriano, -1

机译：具有延迟反馈的半导体激光器的实时频率动态和高分辨率光谱
7. Fuzzy logic based feedback control system for the frequency stabilization of external-cavity semiconductor lasers [O] . Yang Wang, Xiaoyan Wu, Yuhang Wang, 2020

机译：基于模糊逻辑的反馈控制系统，用于外腔半导体激光器的频率稳定
8. SUNLITE program. Sub-Hertz relative frequency stabilization of two diode laser pumped Nd:YAG lasers locked to a Fabry-Perot interferometer [R] . Byer, R. L. 1990

机译：sUNLITE计划。两个二极管激光泵浦Nd：YaG激光器的亚赫兹相对频率稳定性锁定法布里 - 珀罗干涉仪

Frequency stabilization of semiconductor lasers for onboard interferometers using both Rb-saturated absorption profiles anddouble-optical feedback systems

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