摘要
This article proposes a new physics package to enhance the frequency stability of the space cold atom clock with the advantages of a microgravity environment. Clock working processes, including atom cooling, atomic state preparation,microwave interrogation, and transition probability detection, are integrated into the cylindrical microwave cavity to achieve a high-performance and compact physics package for the space cold atom clock. We present the detailed design and ground-test results of the cold atom clock physics package in this article, which demonstrates a frequency stability of 1.2×10^(-12) τ^(-1/2) with a Ramsey linewidth of 12.5 Hz, and a better performance is predicted with a 1 Hz or a narrower Ramsey linewidth in microgravity environment. The miniaturized cold atom clock based on intracavity cooling has great potential for achieving space high-precision time-frequency reference in the future.
作者
邓思敏达
任伟
项静峰
赵剑波
李琳
张迪
万金银
孟艳玲
蒋小军
李唐
刘亮
吕德胜
Siminda Deng;Wei Ren;Jingfeng Xiang;Jianbo Zhao;Lin Li;Di Zhang;Jinyin Wan;Yanling Meng;Xiaojun Jiang;Tang Li;Liang Liu;Desheng Lü(Aerospace Laser Technology and System Department,Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences,Shanghai 201800,China;Mechanics,Chinese Academy of Sciences,Shanghai 201800,China;Center of Materials Science and Optoelectronics Engineering,University of Chinese Academy of Sciences,Beijing 100049,China)
基金
Project supported by the Space Application System of China Manned Space Program
the Youth Innovation Promotion Association,CAS。
