[1] A Einstein. Approximative integration of the field equations of gravitation. Sitzungsber Preuss Akad Wiss Berlin (Math Phys), 1916, 688-696(1916).

[2] B P Abbott, R Abbott, T D Abbott et al. Observation of gravitational waves from a binary black hole merger. Phys Rev Lett, 116, 061102(2016).

[3] K Danzmann, LISA Study Team The. LISA: laser interferometer space antenna for gravitational wave measurements. Class Quantum Grav, 13, A247-A250(1996).

[4] J Luo, L S Chen, H Z Duan et al. TianQin: a space-borne gravitational wave detector. Class Quantum Grav, 33, 035010(2016).

[5] W H Ruan, Z K Guo, R G Cai et al. Taiji program: gravitational-wave sources. Int J Mod Phys A, 35, 2050075(2020).

[6] W T Fan, H C Zhao, L Fan et al. Preliminary analysis of space gravitational wave detection telescope system technology. Acta Sci Nat Univ Sunyatseni, 60, 178-185.(2021).

[7] X Y Wang, S J Bai, Q Zhang et al. Research progress of telescopes for space-based gravitational wave missions. Opto-Electron Eng, 50, 230219.(2023).

[8] B H Li, J Luo, M Y Qiu et al. Design technology of the truss support structure of the ultra-low thermal deformation gravitational wave detection telescope. Opto-Electron Eng, 50, 230155.(2023).

[9] J Livas, P Arsenovic, K Castelluci et al. LISA telescope spacer design issues(2010).

[10] J Sanjuán, D Korytov, G Mueller et al. Note: silicon carbide telescope dimensional stability for space-based gravitational wave detectors. Rev Sci Instrum, 83, 116107(2012).

[11] J Livas, S Blake, A Davis et al. Proposed LISA telescope design(2019).

[12] J Livas, R Derosa, R Keski-Kuha et al. Technology development for LISA: the telescope. Bull Am Phys Soc, 65(2020). https://absuploads.aps.org/presentation.cfm?pid=18123

[13] Y P Li, Z Wang, W Sha et al. Flexibility calculation and analysis of Bipod reflector support structure. Opt Precis Eng, 26, 1691-1697.(2018).

[14] Y P Li, Z Wang, W Sha et al. Structural design of primary mirror subassembly for spatial gravitational wave telescope. Infrared Laser Eng, 47, 0818004.(2018).

[15] C Z Wang, Z W Hu, Y Chen et al. Structural design optimization of space gravitational wave telescope primary mirror system. Infrared Laser Eng, 49, 20190469.(2020).

[16] J S Dai, X L Ding. Compliance analysis of a three-legged rigidly-connected platform device. J Mech Des, 128, 755-764(2006).

[17] J M Selig, X L Ding. A screw theory of Timoshenko beams. J Appl Mech, 76, 031003(2009).

[18] L M Zhang, F G Wang, Q C An et al. Application of Bipod to supporting structure of minitype reflector. Opt Precis Eng, 23, 438-443.(2015).

[19] H Kihm, H S Yang, Y W Lee. Bipod flexure for 1-m primary mirror system. Rev Sci Instrum, 85, 125101(2014).