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基准原子钟的发展及国家授时中心光学原子钟的研制进展
引用本文:常宏,张首刚,王心亮,田晓. 基准原子钟的发展及国家授时中心光学原子钟的研制进展[J]. 中国科学:物理学 力学 天文学, 2010, 0(5): 616-622
作者姓名:常宏  张首刚  王心亮  田晓
作者单位:中国科学院国家授时中心;
基金项目:国家重点基础研究计划(编号:2005CB724501);;中国科学院重要方向项目(编号:KJCX2-SW-T12)资助
摘    要:本文简要介绍了基准原子钟的发展历程;目前,光学原子钟的频率不确定度已达到了10-18量级,是现在人们公认的最可能新的时间基准.国家授时中心担负着国家综合原子时的建立和保持,是国际原子时TAI建立的主要参加单位.文中介绍了国家授时中心锶光学原子钟研制工作的最新进展.

关 键 词:原子钟  微波喷泉钟  光学原子钟

The development of atomic clock for time keeping and the Strontium optical clock in National Time Service Center
CHANG Hong,ZHANG ShouGang,WANG XinLiang & TIAN Xiao. The development of atomic clock for time keeping and the Strontium optical clock in National Time Service Center[J]. SCIENCE CHINA Physics, Mechanics & Astronomy, 2010, 0(5): 616-622
Authors:CHANG Hong  ZHANG ShouGang  WANG XinLiang & TIAN Xiao
Affiliation:(National Time Service Center, Chinese Academy of Sciences, Xi’ An 710600, China )
Abstract:A brief history of atomic clock for time keeping and its development introduced. At present, the frequency uncertainty of 10-18 can be reached by optical clock. Optical clock is now recognized that the most likely for the new time and frequency standard in the future. National Time Service Center responsible for the overall national Atomic Time to build and maintain in China, is the establishment of the International Atomic Time TAI major participating units. We give a introduction of the Strontium optical ...
Keywords:atomic clock  microwave fountain clock  optical clock  
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