[1] Optical Instrument Design Manual Editing Group. Optical Instrument Design Manual[M]. Beijing: National Defence Industry Press, 1971.(in Chinese)

[2] MIAO J Y, ZHANG L P , WU Q W, et al .. Designing, manufacturing, and assembly for optical lens of mapping camera[J]. Opt. Precision Eng., 2008,16 (9): 1648-1653. (in Chinese)

[3] HAN X, WU Q W, DONG D Y, et al .. Application of RTV adhesive modeling to structure analysis of reflective mirror[J]. Opt. Precision Eng., 2010,18 (1): 118-125. (in Chinese)

[4] CT P, LECLERC M, CHTEAUNEUF F,et al .. Lens barrel design of the NIRST IR camera[J]. SPIE, 2009, 7424: 74240E.

[5] RYABOY V M. Analysis of thermal stress and deformation in elastically bonded optics[J]. SPIE, 2007, 6665:66650K.

[6] BAYAR M. Lens barrel optomechanical design principles[J]. Optical Engineering, 1981,20(2): 181-186.

[7] HERBERT J J. Techniques for deriving optimal bondlines for athermal bonded mounts[J]. SPIE, 2006,6288:62880J.

[8] VUKOBRATOVICH D, FETTERHOFF K A, et al.. Bonded mounts for mmall mryogenic mptics[J]. SPIE, 2000,4131: 228-239.

[9] KIHM H Y, YANG H S, LEE Y W,et al .. Athermal elastomeric lens mount for space optics[J]. Journal of the Optical Society of Korea, 2009,13(2):201-205.

[10] YODER P R. Handbook of Optomechanical Engineering[M]. Florida: CRC Press, 1997.

[11] VUKOBRATOVICH D. New solutions in optomechanics[J]. SPIE's oemagazine, 2005, 5(7): 17-19.

[12] MONTI C L. Athermal bonded mounts: Incorporating aspect ratio into a closed-form solution[J]. SPIE,2007,6665:666503.

[13] ZHAO P, WU Q W, LU E, et al .. A study of the thermal response of a primary mirror in spatial camera[J]. Opt. Precision Eng., 1997,5(6):64-68. (in Chinese)

[14] MICHELS G J, GENBERG V L, DOYLE K B. Finite element modeling of nearly incompressible bonds[J]. SPIE, 2002,4771:287-295.

[15] GUAN Y J. Finite element analysis of the focusing firror fastened by adhesive[J]. Opto-Electronic Engineering,2010, 37(10):1-5. (in Chinese)