[1] CHEN Rong-li, MA Zhen, YANG Wen-gang, et al. Thermal-optical analysis and tests for high resolution space camera[J]. Acta Photonica Sinica, 2010, 39(1): 2068-2071.
[2] SPAGNESI C, VANNONI M, MOLESINI G. Thermal effects in the solar disk sextant telescope[C]. Optical Design and Engineering. St.Etienne, France: Laurent Mazuray, 2004, 5249: 746-753.
[4] YANG De-hua, JIANG Zi-bo, LI Xin-nan. Integrated thermal disturbance analysis of optical system of astronomical telescope[C]. Modeling, Systems Engineering, and Project Management for Astronomy III. Marseile, France: George Z. Angeli, 2008, 7017: 70171N.
[5] DWNIS S, COUCKE P, GABRIEL E, et al. Multi-application solar telescope: assembly, integration and testing[C]. Ground-based and Airborne Telescopes III. San Diego, California, USA: Larry M. Stepp, 2010, 7733: 773335.
[6] DWNIS S, COUCKE P, GABRIEL E, et al. Optomechanical & thermal design of the multi-application solar telescope for USO[C]. Ground-based and Airborne Telescopes II. Marseille, France: Larry M. Stepp, 2008, 7012: 701235.
[7] HOPKINS R C, CAPIZZO P, FINCHER S, et al. Spacecraft conceptual design for the 8-meter advanced technology large aperture space telescope (ATLAST)[C]. Space Telescopes and Instrumentation 2010: Optical, Infrared, and Millimeter Wave. San Diego, California, USA: Jacobus M. Oschmann, 2010, 7731: 77312Q.
[8] RIMMELE T, KEIL S L, KELLER C, et al. Technical challenges of the advanced technology solar telescope[C]. Large Ground-based Telescopes. Waikoloa, Hawaii, USA: Jacobus M. Oschmann. 2003, 4837: 94-109.
[9] SUEMATSU Y, KATSUKAWA Y, SHIMIZU T, et al. Short telescope design of 1.5m aperture solar UV visible and IR telescope aboard solar-C[C]. Solar Physics and Space Weather Instrumentation IV. San Diego, California, USA: Silvano Fineschi. 2011, 8148: 81480D.
[10] LI Rong, WANG Sen. Thermal analysis of the baffle structure of the solar space telescope[J]. Science China: Physics, Mechanics and Astronomy, 2010, 53(9): 1755-1764.
[11] VERDONI A P, DENKER C. The thermal control of the new solar telescope at big bear observatory[C]. Ground-based and Airborne Telescopes. Orlando, FL: Larry M. Stepp, 2006, 6267: 62670M.
[12] RIVERA R B, UHL D, SECUNDA M. Lessons learned for the NASA mission solar dynamics observatory[C]. SPIE, 2010, 7794: 779403.
[13] POSTMAN M, BROWEN T, SEMBACH K, et al. Advanced technology large-aperture space telescope: science drivers and technology developments[J]. Optical Engineering, 2012, 51(1): 011007.
[14] KATSUKAWA Y, SUEMATSU Y, TSUNETA S, et al. Modeling and verification of the diffraction-limited visible light telescope aboard the solar observing satellite HINODE[C]. SPIE, 2011, 8336: 83360F.
[15] ICHIMOTO K, TSUNETA S U, SUEMATSU Y, et al. The solar optical telescope onboard the solar-B[C]. SPIE, 2004, 5487: 1142-1152.
[16] DEFISE J M, HALAIN J P, MAZY E, et al. Design and test for the Heliospheric Imager of the STEREO mission[C]. SPIE, 2003, 4853: 12-22.
[17] THOMPSON W T, DAVILA J M, FISHER R R, et al. The COR1 inner coronagraph for STEREO-SECCHI[C]. SPIE, 2003, 4853: 1-11.
[18] ANTONUCCI E, ROMOLI M, GARDIOL D, et al. Ultraviolet and visible-light coronagraphic iimager (UVCI) for HERSCHEL (helium resonance scattering in corona & heliosphere)[C]. SPIE, 2003, 4853: 162-171.
[19] LI Rong, SHI Hu-li. Thermal effect analysis of main structure in space solar telescope[J]. Infrared and Laser Engineering, 2011, 40(12): 2425-2431.
[20] DENG Yuan-yong, ZHANG Hong-qi. Progress in space solar telescope[J]. Science in China Series: Physics, Mechanics & Astronomy, 2009, 52(11): 1655-1659.
[21] POSTMAN M, BROWEN T, SEMBACH K, et al. Advanced technology large-aperture space telescope: science drivers and technology developments[J]. Optical Engineering, 2012, 51(1): 011007-1-11.
[22] DWNIS S, COUCKE P, GABRIEL E, et al. Multi-application solar telescope: assembly, integration and testing [C]. Ground-based and Airborne Telescopes III. San Diego, California (USA): Larry M. Stepp. 2010, 7733: 773335.