Laser cooling in a chip-scale platform

J. P. McGilligan; K. R. Moore; A. Dellis; G. D. Martinez; E.de Clercq; P. F. Griffin; A. S. Arnold; E. Riis; R. Boudot; J. Kitching

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Laser cooling in a chip-scale platform

机译：芯片级平台中的激光冷却

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Chip-scale atomic devices built around micro-fabricated alkali vapor cells are at the forefront of compact metrology and atomic sensors. We demonstrate a micro-fabricated vapor cell that is actively pumped to ultra-high-vacuum (UHV) to achieve laser cooling. A grating magneto-optical trap (GMOT) is incorporated with a 4 mm-thick Si/glass vacuum cell to demonstrate the feasibility of a fully miniaturized laser cooling platform. A two-step optical excitation process in rubidium is used to overcome surface-scatter limitations to the GMOT imaging. The unambiguous miniaturization and form-customizability made available with micro-fabricated UHV cells provide a promising platform for future compact cold-atom sensors.

机译：围绕微制成的碱蒸气电池内置的芯片尺度原子装置是紧凑计量和原子传感器的最前沿。我们展示了一种微制成的蒸汽细胞，其主动泵送到超高真空（UHV）以实现激光冷却。光栅磁光阱（GMOT）与4mm厚的Si /玻璃真空电池结合，以证明完全小型化激光冷却平台的可行性。 Rubidium中的两步光学激发过程用于克服与GMOT成像的表面散射限制。具有微制造的UHV电池提供的明确的小型化和形式定制性提供了未来紧凑的冷原子传感器的有希望的平台。

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《Applied Physics Letters》 |2020年第5期|054001.1-054001.4|共4页
作者
J. P. McGilligan; K. R. Moore; A. Dellis; G. D. Martinez; E.de Clercq; P. F. Griffin; A. S. Arnold; E. Riis; R. Boudot; J. Kitching;
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作者单位

University of Colorado Department of Physics Boulder Colorado 80309 USA National Institute of Standards and Technology Boulder Colorado 80305 USA;

National Institute of Standards and Technology Boulder Colorado 80305 USA;

University of Colorado Department of Physics Boulder Colorado 80309 USA National Institute of Standards and Technology Boulder Colorado 80305 USA;

University of Colorado Department of Physics Boulder Colorado 80309 USA National Institute of Standards and Technology Boulder Colorado 80305 USA;

LNE-SYRTE Observatoire de Paris Universite PSL CNRS Sorbonne Universite 75014 Paris France;

Department of Physics SUPA University of Strathclyde Glasgow C4 0NC United Kingdom;

Department of Physics SUPA University of Strathclyde Glasgow C4 0NC United Kingdom;

Department of Physics SUPA University of Strathclyde Glasgow C4 0NC United Kingdom;

National Institute of Standards and Technology Boulder Colorado 80305 USA FEMTO-ST CNRS 26 Chemin de I'Epitaphe 25030 Besancon France;

National Institute of Standards and Technology Boulder Colorado 80305 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);
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1. A simple imaging solution for chip-scale laser cooling [J] . A. Bregazzi, P. F. Griffin, A.S.Arnold, Applied Physics Letters . 2021,第18期

机译：用于芯片级激光冷却的简单成像解决方案
2. Research on the laser without cooling system for fast flying platform [J] . Gao Jian, Sun Jianfeng, Wang Qi Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2018,第期

机译：快速飞行平台冷却系统的激光研究
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机译：单模垂直腔表面发射激光器，用于〜（87）Rb基芯片级原子钟
4. Integrated DFB Lasers on Si3N4Photonic Platform for Chip-Scale Atomic Systems [C] . K Gallacher, M. Sinclair, R W. Millar, Conference on Lasers and Electro-Optics . 2019

机译：Si 3 N 4 光子平台上的集成DFB激光器，用于芯片级原子系统
5. Laser cooling and trapping with electronically stabilized grating-feedback diode lasers [D] . Silva, Nancy Jean 1997

机译：电子稳定的光栅反馈二极管激光器对激光器进行冷却和捕获
6. A simplified 461-nm laser system using blue laser diodes and a hollow cathode lamp for laser cooling of Sr [O] . Yosuke Shimada, Yuko Chida, Nozomi Ohtsubo, -1

机译：一种简化的461 nm激光系统使用蓝色激光二极管和空心阴极灯对Sr进行激光冷却
7. ADVANCED PROGRESS ON Χ⁽³⁾ NONLINEARITY IN CHIP-SCALE PHOTONIC PLATFORMS (INVITED REVIEW) [O] . Zhe Kang, Chao Mei, Luqi Zhang, 2021

机译：χ（3）芯片级光子平台中的非线性进展（请审查）
8. Vibration Characteristics of a Laser Heterodyne Spectrometer Tunable Diode Laser System Using a Mechanical Cooler Platform [R] . Catherines, J. J., Schwartz, J. W. 1981

机译：基于机械冷却器平台的激光外差光谱仪可调谐二极管激光系统的振动特性

Laser cooling in a chip-scale platform

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