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Acta Photonica Sinica, Volume. 53, Issue 1, 0122002(2024)

Optical Design of High-compression Ratio and Low-wavefront Error Gravitational Wave Detection Telescope

Rong LIANG1,2, Xiaojun ZHOU1, Chunbo ZOU3, Huangrong XU1, Chenxi LI1, Tao YU1,2, and Weixing YU1,2、*
Author Affiliations
  • 1Key Laboratory of Spectral Imaging Technology,Xi'an Institute of Optics Precision Mechanics of Chinese Academy of Sciences,Xi'an 710119,China
  • 2University of Chinese Academy of Sciences,Beijing 100049,China
  • 3Fuzhou University,Fuzhou 350116,China
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    [1] J M IRVINE. General relativity: an einstein centenary survey. Physics Bulletin, 31, 140-140(1980).

    [2] B P ABBOTT, R ABBOTT, T D ABBOTT et al. Observation of gravitational waves from a binary black hole merger. Physical Review Letters, 116, 061102(2016).

    [3] B P ABBOTT, R ABBOTT, T D ABBOTT et al. GW150914: Implications for the stochastic gravitational-wave background from binary black holes. Physical Review Letters, 116, 131102(2016).

    [4] J W CORNELISSE. Lisa mission and system design. Classical and Quantum Gravity, 13, A251(1996).

    [5] D CYRANOSKI. Chinese gravitational-wave hunt hits crunch time. Nature, 531, 150-151(2016).

    [6] Wenrui HU, Yueliang WU. The Taiji program in space for gravitational wave physics and the nature of gravity. National Science Review, 4, 685-686(2017).

    [7] Jun LUO, Lisheng CHEN, Huizong DUAN et al. TianQin: a space-borne gravitational wave detector. Classical and Quantum Gravity, 33, 035010(2016).

    [8] V K MILYUKOV. TianQin space-based gravitational wave detector: Key technologies and current state of implementation. Astronomy Reports, 64, 1067-1077(2020).

    [9] S R SANKAR, J LIVAS. Optical alignment and wavefront error demonstration of a prototype LISA telescope. Classical and Quantum Gravity, 37, 065005(2020).

    [10] Zichao FAN, Lujia ZHAO, Jianguo PENG et al. Recommended high performance telescope system design for the TianQin project. Classical and Quantum Gravity, 39, 195017(2022).

    [11] S R SANKAR, J C LIVAS. Optical telescope design for a space-based gravitational-wave mission, 9143, 283-289(2014).

    [12] S I Escudero, A HESKE, J C LIVAS. A telescope for lisa–the laser interferometer space antenna. Advanced Optical Technologies, 7, 395-400(2018).

    [13] J C LIVAS, P ARSENOVIC, J A CROW et al. Telescopes for space-based gravitational wave missions. Optical Engineering, 52, 091811(2013).

    [14] Zhi WANG, Wei SHA, Zhe CHEN et al. Preliminary design and analysis of telescope for space gravitational wave detection. Chinese Optics, 11, 131-151(2018).

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    Rong LIANG, Xiaojun ZHOU, Chunbo ZOU, Huangrong XU, Chenxi LI, Tao YU, Weixing YU. Optical Design of High-compression Ratio and Low-wavefront Error Gravitational Wave Detection Telescope[J]. Acta Photonica Sinica, 2024, 53(1): 0122002

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    Paper Information

    Category: Optical Design and Fabrication

    Received: Jul. 19, 2023

    Accepted: Aug. 23, 2023

    Published Online: Feb. 1, 2024

    The Author Email: YU Weixing (yuwx@opt.ac.cn)

    DOI:10.3788/gzxb20245301.0122002

    Topics

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