Optimization of light frequency shift characteristics for coherent population trapping atomic clock

被引:0
作者
Zhang, Yan [1 ]
Zhang, Yi [1 ]
Yin, Yi [1 ]
Chen, Jiehua [1 ]
Gu, Sihong [1 ]
机构
[1] Key Laboratory of Atomic Frequency Standards, Wuhan Institute of Physics and Mathematics, Chinese Academy of Sciences, Wuhan
来源
Zhongguo Jiguang/Chinese Journal of Lasers | 2014年 / 41卷 / 04期
关键词
Atomic clock; Digital quadrature demodulation; Light frequency shift; Spectroscopy; Vertical cavity surface emitting laser;
D O I
10.3788/CJL201441.0415001
中图分类号
学科分类号
摘要
Light frequency shift is one of the important factors which influence the performance of the standard frequency of a coherent population trapping (CPT) atomic clock. Usually, it takes a long time to optimize the light frequency shift behavior of a CPT atomic clock. With field programmable gate array, a digital quadrature demodulation method which considerably reduces the time and amount of work to optimize light frequency shift behavior of a CPT atomic clock is developed. Applying the method to the production of the CPT atomic clocks, the debug period and workload can be reduced.
引用
收藏
相关论文
共 50 条
[41]   Practical realization of a passive coherent population trapping frequency standard [J].
Vanier, J ;
Levine, MW ;
Kendig, S ;
Janssen, D ;
Everson, C ;
Delaney, MJ .
IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 2005, 54 (06) :2531-2539
[42]   Practical realization of a passive coherent population trapping frequency standard [J].
Vanier, J ;
Levine, M ;
Kendig, S ;
Janssen, D ;
Everson, C ;
Delaney, M .
PROCEEDINGS OF THE 2004 IEEE INTERNATIONAL FREQUENCY CONTROL SYMPOSIUM AND EXPOSITION, 2005, :92-99
[43]   Modulation spectroscopy of coherent population trapping resonance and light shifts [J].
Chuchelov, D. S. ;
Vassiliev, V. V. ;
Vaskovskaya, M., I ;
Velichansky, V. L. ;
Tsygankov, E. A. ;
Zibrov, S. A. ;
Petropavlovsky, S., V ;
Yakovlev, V. P. .
PHYSICA SCRIPTA, 2018, 93 (11)
[44]   Generation of squeezed light vacuum enabled by coherent population trapping [J].
Neveu, P. ;
Delpy, J. ;
Liu, S. ;
Banerjee, C. ;
Lugani, J. ;
Bretenaker, F. ;
Brion, E. ;
Goldfarb, F. .
OPTICS EXPRESS, 2021, 29 (07) :10471-10479
[45]   Effect of atomic diffusion on the Raman-Ramsey coherent population trapping resonances [J].
Kuchina, Elena ;
Mikhailov, Eugeniy E. ;
Novikova, Irina .
JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 2016, 33 (04) :610-614
[46]   Review of chip-scale atomic clocks based on coherent population trapping [J].
Wang Zhong .
CHINESE PHYSICS B, 2014, 23 (03)
[47]   Characterization of the collisional frequency shift in an atomic fountain clock using absorption imaging [J].
Beattie, Scott ;
Jian, Bin .
METROLOGIA, 2023, 60 (04)
[48]   Line shape and light shift of coherent population trapping resonance under Ramsey interrogation in 'hot' atoms in an optically dense medium [J].
Voloshin, G. V. ;
Barantsev, K. A. ;
Litvinov, A. N. .
QUANTUM ELECTRONICS, 2022, 52 (02) :108-115
[49]   High-performance coherent population trapping clock based on laser-cooled atoms [J].
Liu, Xiaochi ;
Ru, Ning ;
Duan, Junyi ;
Yun, Peter ;
Yao, Minghao ;
Qu, Jifeng .
CHINESE PHYSICS B, 2022, 31 (04)
[50]   Optoelectronic oscillator stabilized to an intra-loop atomic filter with a coherent population trapping resonance [J].
Sin Hyuk Yim ;
D. Cho .
Journal of the Korean Physical Society, 2012, 61 :17-21
12345