[1] C N Danson, C Haefner, J Bromage, et al. Petawatt and exawatt class lasers worldwide. High Power Laser Science and Engineering, 7, e54(2019).

[2] [2] Bagnoud V, Hnung J, Afshari M, et al. Implementation of a phase plate f the generation of homogeneous focalspot intensity distributions at the highenergy shtpulse laser facility PHELIX [J]. High Power Laser Science Engineering, 2019, 7(4): e62.

[3] [3] Galletti M, Oliveira P, Galimberti M, et al. Ultrabroadb allOPCPA petawatt facility fully based on LBO [J]. High Power Laser Science Engineering, 2020, 8(4): e31.

[4] T Jiang, S Gao, Z N Tian, et al. Fabrication of diamond ultra-fine structures by femtosecond laser. Chinese Optics Letters, 18, 101402(2020).

[5] Y Cheng, X Liu, C Y Tan, et al. Research and development of spaceborne solid state laser technology for laser altimeter. Infrared and Laser Engineering, 49, 20201046(2020).

[6] R Shu, G H Huang, W Kong. Development and review of space-based laser altimetry technology. Infrared and Laser Engineering, 49, 20201047(2020).

[7] J C Huang, L K Wang, Y F Duan, et al. All-fiber-based laser with 200 mHz linewidth. Chinese Optics Letters, 17, 071407(2019).

[8] Y C Jia, F Chen. Compact solid-state waveguide lasers operating in the pulsed regime: a review. Chinese Optics Letters, 17, 012302(2019).

[9] [9] Wang J L, Zhao K Q, Feng T, et al. 1.5 J highbeamquality Nd: LuAG ceramic active mirr laser amplifier [J]. Chinese Optics Letters, 2020, 18(2): 021401.

[10] [10] Bullock K T, DeYoung R J, Sfd S P. Angular alignment testing of laser mirr mounts under temperature cycling [J]. NASA Technical Repts Server, 1997, 3661: 117.

[11] [11] Jacobs S F. Variable invariables: dimensional instability with time temperature [C]Critical Review Collection, 2017.

[12] R Baskaran, P Sivakumar, D Arivuoli. Dimensional stability of mirror materials for opto-mechanical reference systems. International Journal of Physical Sciences, 8, 997-1004(2013).

[13] [13] Leahy Z N, Magner A J, Hatheway A E. Athermal mounting of optics in metallic housings [C]Proceedings of SPIEOptomechanical Engineering, 2013, 8836: 88360P.

[14] [14] Pijnenburg J, Voert M J A T, Vreugd J D, et al. Ultrastable isostatic bonded optical mount design f harsh environments [C]Proceedings of SPIEThe International Society f Optical Engineering, 2012, 8450: 27.

[15] [15] Dewitt F. A novel mirrmount design suitable f labaty OEM applications [C]Proceedings of SPIE, 2018, 10747: 107470D.

[16] [16] Kvamme E T, Sullivan M T. A small lowstress stable 3DOF mirr mount with one arcsecond tiptilt resolution [C]Proceedings of SPIEThe International Society f Optical Engineering, 2004, 5528: 264271.

[17] [17] Kautz M, Close L M, Males J R. A locking clamp that enables high thermal vibrational stability f kinematic optical mounts [C]Proceedings of SPIE, 2018, 10703: 107032Q.

[18] J E Furse. Kinematic design of fine mechanisms in instruments. Journal of Physics E Scientific Instruments, 14, 264(1981).

[19] [19] Tapply J K. Optical testing technique f the evaluation of mechanical mount thermal stability [C]Proceedings of SPIE, 1999, 3786: 386394.

[20] D H Wang, J Zhao, X Q Zhao, et al. Measurement and analysis on structure stability of optical mirror mounts with small aperture. Chinese Journal of Lasers, 37, 308-311(2010).

[21] C Zhang, G X Tang, Z G Liu, et al. Research on structural stability of adjustable support mount in laser system. Chinese Journal of Lasers, 47, 1001002(2020).