[1] NEVO Y. Dual-band optics[J]. Optical Engineering, 2013,52(5): 053002.
[2] VIZGAITIS J N, HASTINGS A. Dual band infrared picture-in-picture systems[J].Optical Engineering, 2013,52(6): 061306.
[3] MIK A,NOVK J. Three-component double conjugate zoom lens system from tunable focus lenses [J].Applied Optics, 2013,52(4): 862-865.
[5] YAN Lei. The optical design of VIS/IR dual-band airborne reconnaissance systems[D].Changchun Institute of Optics, Fine Mechanics and Physics,chinese Academy of Sciences.2010,11.
[6] MANN A. Infrared zoom lenses in the1980s and beyond[C]. SPIE,1992, 31(5):1064-1071.
[7] VIZGAITIS J N. Optical concepts for dual band infrared continuous zoom lenses[C]. SPIE, 2010,7652:76522E.
[8] HAN J Y, MARCHUK S, KIM H. Imaging EO/IR optical system for long range oblique photography[C]. SPIE, 2012,8020:802009.
[9] KABAK A M.Optical design of a broadband (3~12μm) athermal Infrared imager[C].SPIE,2010,7660:766029.
[10] ZHANG Chun-yan, SHEN Wei-min. Design of an athermalized MWIR and LWIR dual-band optical system[J].Infrared and Laser Engineering,2012,41(5):1323-1328.
[11] NI Guo-qiang, QIN qing-wang, XIAO Man-jun, et al. Development of infrared imaging technology in China[J]. Science & Technology Review,2008,26(22):88-93.
[12] FLOREA C, SANGHERA J, AGGARWAL I. Broadband beam steering using chalcogenide-based Risley prisms[J]. Optical Engineering, 2011,50(3): 3280-3286.
[13] YANG H S, KIHM H. Three-shell-based lens barrel for the effective athermalization of an IR optical system[J]. Applied Optics. 2011, 50(33): 6206-6213.
[14] SHEN bi-yun, GAO ming. Passive optical athermalization desing for infrared optical system[J].Electronic Optics and Control, 2012,19(6):71-78.
[16] LIU Jun, CHEN Yang. Visible/infrared dual-band large field shared-aperture and parfocal optical system[J].Journal of Xi’an Technological University,2014,34(2):88-93.
