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Acta Optica Sinica, Volume. 41, Issue 19, 1902001(2021)

Design and Optimization of Quantized Axial Magnetic Field for Transportable Rubidium Fountain Atomic Clock

Henan Cheng1,2, Siminda Deng1,2, Zhen Zhang1,2, Jingfeng Xiang1, Wei Ren1, Jingwei Ji1, Liang Liu1、*, and Desheng Lü1,2、**
Author Affiliations
  • 1Key Laboratory of Quantum Optics, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
  • 2College of Materials Science and Opto-Electronic Technology, University of Chinese Academy of Sciences, Beijing 100000, China
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    [1] Lorini L, Pavlenko K, Bize S et al. Preliminary stability analysis of Rb fountains for timescale generation[C], 317-321(2017).

    [2] Dai S Y, Zheng F S, Liu K et al. Cold atom clocks and their applications in precision measurements[J]. Chinese Physics B, 30, 013701(2021).

    [3] Huang B Y. Atomic clocks in navigation stars and space stations[J]. China Metrology, 46-47(2002).

    [4] Wang Y Q[M]. Laser cooling and trapping of atoms(2007).

    [5] Gerginov V, Nemitz N, Weyers S et al. Uncertainty evaluation of the caesium fountain clock PTB-CSF2[J]. Metrologia, 47, 65-79(2010).

    [6] Ovchinnikov Y, Marra G. Accurate rubidium atomic fountain frequency standard[J]. Metrologia, 48, 87-100(2011).

    [7] Yang S H, Baek K J, Kwon T Y et al. Second-order Zeeman frequency shift in the optically pumped cesium beam frequency standard with a dual servo system[J]. Japanese Journal of Applied Physics, 38, 6174-6177(1999).

    [8] Wang X L, Ruan J, Liu D D et al. The study of second-order Zeeman shift of the cesium fountain clock NTSC-F1[C], 1-3(2016).

    [9] Wang Q, Zhang N, Guang W et al. Precision measurements of the ground-state hyperfine splitting of 85Rb using an atomic fountain clock[J]. Physical Review A, 100, 022510(2019).

    [10] Ji Q C, Zhao W J, Wang Y et al. Evaluation and suppression of the magnetic-induced Rabi broadening of magnetic-sensitive Ramsey fringes[J]. Journal of the Optical Society of America B, 38, 1078(2021).

    [11] Ramsey N[M]. Molecular beams(1986).

    [12] Gerginov V, Nemitz N, Weyers S et al. Uncertainty evaluation of the caesium fountain clock PTB-CSF2[J]. Metrologia, 47, 65-79(2010).

    [13] Ma W W, Zhou Y Q, Xie X S[M]. Physics, 243-249(2006).

    [14] Wang X W, Liu K K, Cheng H N et al. Optimization of temperature characteristics of a transportable 87Rb atomic fountain clock[J]. Chinese Optics Letters, 17, 080201(2019).

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    Henan Cheng, Siminda Deng, Zhen Zhang, Jingfeng Xiang, Wei Ren, Jingwei Ji, Liang Liu, Desheng Lü. Design and Optimization of Quantized Axial Magnetic Field for Transportable Rubidium Fountain Atomic Clock[J]. Acta Optica Sinica, 2021, 41(19): 1902001

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    Paper Information

    Category: Atomic and Molecular Physics

    Received: Apr. 2, 2021

    Accepted: Apr. 27, 2021

    Published Online: Oct. 9, 2021

    The Author Email: Liu Liang (liang.liu@siom.ac.cn), Lü Desheng (dslv@siom.ac.cn)

    DOI:10.3788/AOS202141.1902001

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology