Spectral Hole Burning for Ultra-stable Lasers

机译：超稳定激光器的光谱孔燃烧

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We report on the measurement of uniaxial stress sensitivities of the spectral holes in rare earth doped crystal. This provides the necessary information for ab initio calculation of the acceleration sensitivity for a given crystal geometry, and provides the necessary base for optimizing the mounting of the crystal so as to decrease the vibration induced frequency instability. Furthermore, we report on a novel double heterodyne detection scheme which we have shown can be used to decrease the detection noise when locking a laser to the central frequency of a spectral hole, and thereby allows us to obtain a laser with fractional frequency instability of $1.7imes 10^{-15} @ 1 mathrm{s}$.

机译：我们报告了稀土掺杂晶体中光谱孔的单轴应力敏感性的测量。这为从头计算给定晶体几何形状的加速度灵敏度提供了必要的信息，并为优化晶体的安装以减少振动引起的频率不稳定性提供了必要的基础。此外，我们报告了一种新颖的双外差检测方案，该方案已显示出可用于在将激光器锁定到光谱孔的中心频率时降低检测噪声，从而使我们能够获得频率不稳定度为5％的激光器。 $ 1.7 \乘以10 ^ {- 15} \ @ \ 1 \ \ mathrm {s} $ 。

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《International Frequency Control Symposium;International Symposium on Applications of Ferroelectrics》|2020年|1-4|共4页
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Nicolas Galland; Signe Seidelin; Alban Ferrier; Philippe Goldner; Shuo Zhang; Nemanja Lučić; Hector Álvarez-Martínez; Roldolphe le Targat; Bess Fang; Yann le Coq;
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Spectral Hole burning; Ultra-stable Lasers; Strain Sensitivity;

机译：光谱烧孔;超稳定激光器;应变敏感性;

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专利

1. Double-heterodyne probing for an ultra-stable laser based on spectral hole burning in a rare-earth-doped crystal [J] . Optics Letters . 2020,第7期

机译：基于稀土掺杂晶体燃烧的基于谱孔的超稳定激光的双外差探测
2. Frequency-Doubled Fiber Lasers for RF Spectrum Analysis in Spectral-Hole-Burning Media [J] . Colice M., Xiong J., Wagner K. H. IEEE Journal of Quantum Electronics . 2008,第6期

机译：倍频光纤激光器，用于光谱孔燃烧介质中的RF频谱分析
3. Impact of the mesa etching profiles on the spectral hole burning effects in quantum dot lasers [J] . D Ouyang, N N Ledentsov, S Bognar, Semiconductor science and technology . 2004,第5期

机译：台面蚀刻轮廓对量子点激光器中光谱孔燃烧效应的影响
4. High-resolution spectral hole-burning spectroscopy at 580nm with an ultra-stable cw OPO [C] . R. S. Conroy, T. Petelski, J. Mlynek, Conference on Lasers and Electro-Optics . 2001

机译：高分辨率光谱空穴燃烧光谱，用超稳定的CW OPO为580nm
5. Particle dynamics and energy transfer in high-speed quantum well lasers: Effects of spectral hole burning, carrier heating, and carrier transport [D] . Tsai, Chin-Yi. 1995

机译：高速量子井激光器中的粒子动力学和能量转移：光谱燃烧，载体加热和载流子的效果
6. Pulsed ultrasound-modulated optical tomography using spectral-hole burning as a narrowband spectral filter [O] . Youzhi Li, Huiliang Zhang, Chulhong Kim, -1

机译：使用光谱孔燃烧作为窄带光谱滤波器的脉冲超声调制光学层析成像
7. Line narrowing and spectral hole burning in single mode Nd3+- fibre lasers [O] . Zürn, M., Voigt, J., Brinkmeyer, E., 1987

机译：单模Nd3 +光纤激光器中的线窄和光谱烧孔
8. Ultra-Stable Gallium Nitride and Infrared Laser Frequency Standards Based on Spectral Hole Burning. [R] . Cone, R. L. 2004

机译：基于光谱孔燃烧的超稳态氮化镓和红外激光频率标准。

Spectral Hole Burning for Ultra-stable Lasers

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