[2] BARRY J R, JAMES B H, BURLESON T. All-reflective four-element zoom telescope: design and analysis[C]. SPIE, 1990, 1354: 669-675.
[3] SEIDL K, RICHTER K, KNOBBE J, et al. Wide field-of-view all-reflective objectives designed for multispectral image acquisition in photogrammetric applications[C]. SPIE, 2011, 8172: 817210.
[4] SEIDL K, KNOBBE J, GRUGER H. Design of an all-reflective unobscured optical-power zooming objective[J]. Applied Optics, 2009, 48(21): 4097-4107.
[5] WICK D V, MARTINEZ T Y, PAYNE D M, et al. Active optical zoom system[C]. SPIE, 2005, 5798: 151-157.
[6] BAGWELL B E, WICK D V, COWAN W D, et al. Active zoom imaging for operationally responsive space[C]. SPIE, 2007, 6467: 64670D.
[7] LIN Y H, LIU Y L, SU G. Optical zoom module based on two deformable mirrors for mobile device application[J]. Applied Optics, 2012, 51(11): 1804-1810.
[8] ZHAO Hui, FAN Xue-wu, ZOU Gang-yi, et al. Prototype design of an all-reflective non-coaxial optical zooming system for space camera application without moving elements based on deformable mirror[C]. SPIE, 2012, 8557: 855713.
[9] BIN N E, DOTHAN D F. Mirror with adjustable radius of curvature[J]. Review of Scientific Instruments, 1973, 44(4): 512-513.
[10] SCHWARZ J, RAMSEY M, HEADLEY D, et al. Thermal lens compensation by convex deformation of a flat mirror with variable annular force[J]. Applied Physics, 2006, B82: 275-281.
[11] GREINER U J, KLINGENBERG H H. Thermal lens correction of a diode-pumped Nd∶YAG laser of high TEM00 power by an adjustable-curvature mirror[J]. Optics Letters, 1994, 19(16): 1207-1209
[12] APOLLONOV V V, VDOVIN G V, OSTROVSKAYA L M, et al. Active correction of a thermal lens in a solid-state laser. I. Metal mirror with a controlled curvature of the central region of the reflecting surface[J]. Soviet Journal of Quantum Electronics, 1991, 21(1): 116-118.
[14] FENG Zhi-qing, BAI Lan, ZHANG Zeng-bao, et al. Thermal deformation compensation of high-energy laser mirrors[J]. Optics and Precision Engineering, 2010, 18(8): 1781-1787.
[16] ZHAO Hui, XIE Xiao-peng, WEI Jing-xuan, et al. Annular force based variable curvature mirror aiming to realize non-moving element optical zooming[C]. SPIE, 2015, 9678: 967807.
[17] XIE Xiao-peng. Study of variable curvature mirrors technology for optical zoom without macroscopic moving elements[D]. Hohhot: Inner Mongolia University, 2015.
[18] TIMOSHENKO S P, KRIEGER S W. Theory of plates and shells[M]. 2nd edition. Singapore: McGraw-Hill Book Company, 1959.
[19] YOUNG W C, BUDYNAS R G. Roark′s formulas for stress and strain[M]. 7th Edition, the United States of America: McGraw-Hill Companies, 2002: 487-488, 491-492.
[20] LEMAITRE G R. Astronomical optics and elasticity theory[M]. Springer, 2009.