[1] NEIL I A. Optical design dependence on technology development[C].SPIE, 2009, 7428.8-15.
[2] FENG Xiu-heng. Comparison of the miniaturization of the positive group and the negative group for the zoom lens[J]. Optical Machinery, 1984,6:97-102.
[3] FANG Yi-chin, LIN Han-ching. Optical design and optimization of zoom optics with diffractive optical element[C].SPIE, 2009,7282:98-109.
[4] MARK C S, JAMES C. MWIR Continuous zoom with large zoom range [C].SPIE, 2010,7660: 1-12.
[5] JIANG Kai, ZHOU Si-zhong, WANG Yan-bin, et al. Design of 30×middle infrared continuous zoom system[J]. Infrared and Laser Engineering, 2012, 41(8): 2162-2166.
[6] CHEN Jin-jin, JIN Ning, ZHOU Li-gang et al. High resolution middle infrared continuous zoom optical system with large zoom range [J]. Infrared and Laser Engineering, 2013, 42(10): 2742-2747.
[7] HYUN S K, CHANG W K, SEOK M H. Compact mid-wavelength infrared zoom camera with 20:1 zoom range and automatic athermalization[C].SPIE, 2002, 1661-1667.
[8] ZHOU Hao. Study on midwave infrared continuous zoom optical system with a large zoom range[D]. Changchun:Changchun Institute of optical,Fine Mechanics and Physics,Chinese Academy of Sciences:2014.
[9] ELLIS I B, JAMES B Cl. [P].United States Patent:US6,961,188,B2:2005-11-1.
[10] FAN Zhe-yuan, GAO Li-nin, JIANG Zhang-zhi. et al. Design of three-field middle-wave infrared zoom system [J]. Infrared and Laser Engineering, 2014, 43(2): 523-527.
[11] SANSONA M, COMELL, B R. Development of MWIR continuous zoom with large zoom range[C].SPIE, 2012, 0122F: 1-7.
[12] SCHERR L M, ORLANDO H, JHALL J T, et al. Narcissus consideration in optical designs for infrared staring arrays[C]. SPIE, 1996, 2864: 442-452.
[13] ARON Y, BOUBIS I, SHABIT R. Topaz: a novel design of a high magnification athermalized 1:30 zoom in the MWIR[C]. SPIE, 2004, 5406: 97-106.
[15] YIN Na, MENG Qing-chao, QI Yan-long, et al. Middle infrared continuous zoom optical system [J]. Infrared Technology, 2009, 31(12): 694-697.