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Chinese Optics, Volume. 16, Issue 6, 1394(2023)

Ground-based principle verification of clock noise transfer for the Taiji program

Qiang JIANG1,2,3,4, Peng DONG1, He-shan LIU4、*, and Zi-ren LUO1,4
Author Affiliations
  • 1Hangzhou Institute for Advanced Study, UCAS, Hangzhou 310024, China
  • 2University of Chinese Academy of Sciences, Beijing 100049, China
  • 3Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, China
  • 4Institute of Mechanics, Chinese Academy of Sciences, Beijing 100190, China
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    [1] ABBOTT B P, ABBOTT R, ABBOTT T D, et al. Observation of gravitational waves from a binary black hole merger[J]. Physical Review Letters, 116, 061102(2016).

    [2] GAIR J R, VALLISNERI M, LARSON S L, et al. Testing general relativity with low-frequency, space-based gravitational-wave detectors[J]. Living Reviews in Relativity, 16, 7(2013).

    [3] LUO Z R, BAI SH, BIAN X, . Gravitational wave detection by space laser interferometry[J]. Advances in Mechanics, 43, 415-447(2013).

    [4] ARMANO M, AUDLEY H, BAIRD J, et al. Sensor noise in LISA pathfinder: in-flight performance of the optical test mass readout[J]. Physical Review Letters, 126, 131103(2021).

    [5] ARMANO M, AUDLEY H, BAIRD J, et al. Sensor noise in LISA Pathfinder: an extensive in-flight review of the angular and longitudinal interferometric measurement system[J]. Physical Review D, 106, 082001(2022).

    [6] HU W R, WU Y L. The Taiji Program in Space for gravitational wave physics and the nature of gravity[J]. National Science Review, 4, 685-686(2017).

    [7] THE TAIJI SCIENTIFIC COLLABORATION. China’s first step towards probing the expanding universe and the nature of gravity using a space borne gravitational wave antenna[J]. Communications Physics, 4, 34(2021).

    [8] LUO J, CHEN L SH, DUAN H Z, et al. TianQin: a space-borne gravitational wave detector[J]. Classical and Quantum Gravity, 33, 035010(2016).

    [9] LUO J, BAI Y ZH, CAI L, et al. The first round result from the TianQin-1 satellite[J]. Classical and Quantum Gravity, 37, 185013(2020).

    [10] LIU H SH, GAO R H, LUO Z R, . Laser ranging and data communication for space gravitational wave detection[J]. Chinese Optics, 12, 486-492(2019).

    [11] [11] DENG R J, ZHANG Y B, LIU H SH, et al.. Ground electronics verification of intersatellites laser ranging in the Taiji program[J]. Chinese Optics, 2023, 16(4): 765776. (in Chinese)

    [12] LI J C, LIN H A, LUO J X, . Optical design of space gravitational wave detection telescope[J]. Chinese Optics, 15, 761-769(2022).

    [13] LUO Z R, ZHANG M, JIN G, . Introduction of Chinese space-borne gravitational wave detection program "Taiji" and "Taiji-1" satellite mission[J]. Journal of Deep Space Exploration, 7, 3-10(2020).

    [14] [14] BARKE S. Interspacecraft frequency distribution f future gravitational wave observaties[D] Hannover: Gottfried Wilhelm Leibniz Universitt Hannover, 2015.

    [15] BARKE S, TRÖBS M, SHEARD B, et al. EOM sideband phase characteristics for the spaceborne gravitational wave detector LISA[J]. Applied Physics B, 98, 33-39(2009).

    [16] HELLINGS R W. Elimination of clock jitter noise in spaceborne laser interferometers[J]. Physical Review D, 64, 022002(2001).

    [17] OTTO M, HEINZEL G, DANZMANN K. TDI and clock noise removal for the split interferometry configuration of LISA[J]. Classical and Quantum Gravity, 29, 205003(2012).

    [18] TINTO M, DHURANDHAR S V. Time-delay interferometry[J]. Living Reviews in Relativity, 24, 1(2020).

    [19] WANG D F, YAO X, JIAO ZH K, . Time-delay interferometry for space-based gravitational wave detection[J]. Chinese Optics, 14, 275-288(2021).

    [20] YAMAMOTO K, VORNDAMME C, HARTWIG O, et al. Experimental verification of intersatellite clock synchronization at LISA performance levels[J]. Physical Review D, 105, 042009(2022).

    [21] LIU H SH, YU T, LUO Z R. A low-noise analog frontend design for the Taiji phasemeter prototype[J]. Review of Scientific Instruments, 92, 054501(2021).

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    Qiang JIANG, Peng DONG, He-shan LIU, Zi-ren LUO. Ground-based principle verification of clock noise transfer for the Taiji program[J]. Chinese Optics, 2023, 16(6): 1394

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    Paper Information

    Category: Original Article

    Received: Jan. 6, 2023

    Accepted: Mar. 14, 2023

    Published Online: Nov. 29, 2023

    The Author Email:

    DOI:10.37188/CO.2023-0012

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