In-orbit operation of an atomic clock based on laser-cooled 87Rb atoms

机译：基于激光冷却的87Rb原子的原子钟在轨运行

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Atomic clocks based on laser-cooled atoms are widely used as primary frequency standards. Deploying such cold atom clocks (CACs) in space is foreseen to have many applications. Here we present tests of a CAC operating in space. In orbital microgravity, the atoms are cooled, trapped, launched, and finally detected after being interrogated by a microwave field using the Ramsey method. Perturbing influences from the orbital environment on the atoms such as varying magnetic fields and the passage of the spacecraft through Earth’s radiation belt are also controlled and mitigated. With appropriate parameters settings, closed-loop locking of the CAC is realized in orbit and an estimated short-term frequency stability close to 3.0 × 10⁻¹³τ^−1/2 has been attained. The demonstration of the long-term operation of cold atom clock in orbit opens possibility on the applications of space-based cold atom sensors.

机译：基于激光冷却原子的原子钟被广泛用作主要频率标准。预计在太空中部署这种冷原子钟（CAC）具有许多应用。在这里，我们介绍在太空中运行的CAC的测试。在轨道微重力中，原子被冷却，俘获，发射并最终在通过拉姆齐方法被微波场询问后被检测到。轨道环境对原子的干扰影响，例如变化的磁场和航天器通过地球辐射带的通道，也得到控制和缓解。通过适当的参数设置，可以在轨道上实现CAC的闭环锁定，并且估计的短期频率稳定性接近3.0×10 ^{−13 τ^{−1/2 已经实现。冷原子钟在轨道上长期运行的演示为基于空间的冷原子传感器的应用打开了可能性。}}

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期刊名称 Nature Communications
作者
Liang Liu; De-Sheng Lü; Wei-Biao Chen; Tang Li; Qiu-Zhi Qu; Bin Wang; Lin Li; Wei Ren; Zuo-Ren Dong; Jian-Bo Zhao; Wen-Bing Xia; Xin Zhao; Jing-Wei Ji; Mei-Feng Ye; Yan-Guang Sun; Yuan-Yuan Yao; Dan Song; Zhao-Gang Liang; Shan-Jiang Hu; Dun-He Yu; Xia Hou; Wei Shi; Hua-Guo Zang; Jing-Feng Xiang; Xiang-Kai Peng; Yu-Zhu Wang;
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年(卷),期 -1(9),-1
年度 -1
页码 2760
总页数 8
原文格式 PDF
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1. In-orbit operation of an atomic clock based on laser-cooled 87 Rb atoms [J] . Liang Liu, De-Sheng Lü, Wei-Biao Chen, Nature Communications . 2018,第1期

机译：基于激光冷却的87 Rb原子的原子钟在轨运行
2. Testing general relativity and alternative theories of gravity with space-based atomic clocks and atom interferometers [J] . Ruxandra Bondarescu, Andreas Sch?rer, Philippe Jetzer, EPJ Web of Conferences . 2015,第1期

机译：使用天基原子钟和原子干涉仪测试广义相对论和重力的替代理论
3. Testing general relativity and alternative theories of gravity with space-based atomic clocks and atom interferometers [J] . Ruxandra Bondarescu, Andreas Sch?rer, Philippe Jetzer, EPJ Web of Conferences . 2015,第7期

机译：使用天基原子钟和原子干涉仪测试广义相对论和重力的替代理论
4. A vapor cell atomic clock of 87Rb based on Ramsey-CPT with dispersion detection [C] . P. F. Cheng, X. L. Sun, Chi Xu, IEEE International Frequency Control Symposium . 2016

机译：基于Ramsey-CPT的具有弥散检测的87Rb蒸气电池原子钟
5. The Saga of Light-Matter Interaction and Magneto-optical Effects Applications to Atomic Magnetometry, Laser-cooled Atoms, Atomic Clocks, Geomagnetism, and Plant Bio-magnetism. [D] . Corsini, Eric P. 2012

机译：物质相互作用和磁光效应的传奇在原子磁力计，激光致冷原子，原子钟，地磁和植物生物磁性中的应用。
6. Bright focused ion beam sources based on laser-cooled atoms [O] . J. J. McClelland, A. V. Steele, B. Knuffman, -1

机译：基于激光冷却原子的明亮聚焦离子束源
7. A chip-scale atomic clock based on ^87Rb with improved frequency stability [O] . S. Knappe, P. D. D. Schwindt, V. Shah, 2005

机译：基于^ 87RB的芯片级原子时钟，具有改善的频率稳定性
8. Laser-Cooled and Trapped Atoms. Proceedings of the Workshop on Spectroscopic Applications of Slow Atomic Beams Held at the National Bureau of Standards, Gaithersburg, MD. on April 14-15, 1983 [R] . Phillips, W. D. 1983

机译：激光冷却和被困原子。慢原子束光谱应用研讨会论文集在美国马里兰州盖瑟斯堡国家标准局召开。 1983年4月14日至15日

In-orbit operation of an atomic clock based on laser-cooled 87Rb atoms

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