摘要
We present a coherent population trapping clock system based on laser-cooled^(87)Rb atoms.The clock consists of a frequency-stabilized CPT interrogation laser and a cooling laser as well as a compact magneto-optical trap,a highperformance microwave synthesizer,and a signal detection system.The resonance signal in the continuous wave regime exhibits an absorption contrast of~50%.In the Ramsey interrogation method,the linewidth of the central fringe is31.25 Hz.The system achieves fractional frequency stability of 2.4×10^(-11)/(√τ),which goes down to 1.8×10^(-13)at 20000 s.The results validate that cold atom interrogation can improve the long-term frequency stability of coherent population trapping clocks and holds the potential for developing compact/miniature cold atoms clocks.
作者
Xiaochi Liu
Ning Ru
Junyi Duan
Peter Yun
Minghao Yao
Jifeng Qu
刘小赤;茹宁;段俊毅;云恩学;姚明昊;屈继峰(Center for Advanced Measurement Science,National Institute of Metrology,Beijing 100029,China;National Time Service Center,Chinese Academy of Sciences,Xi’an 710600,China;College of Metrology and Measurement Engineering,China Jiliang University,Hangzhou 310018,China)
基金
supported by the National Natural Science Foundation of China(Grant No.61975194)。
