中高轨道空间详查相机光学设计
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摘要
明确了几种三反和四反结构的性能优劣,进而获得一种性能优良的中高轨空间详查光学系统的设计方案。针对同一种光学设计技术指标,分析了空间详查相机的各项主要参数,利用Zemax光学设计软件设计了同轴三反射镜,一次中间像离轴三反射镜和无中间像离轴三反射镜3种三反光学系统以及同轴四反射镜,无中间像离轴四反射镜和一次中间像离轴四反射镜3种四反光学系统,均满足指标要求。对比了上述系统的优缺点,在综合考虑当前的光学加工、检测、装调的可行性以及高分辨力空间对地成像技术发展先进性的基础上,决定选用有一次中间像的离轴四反射镜光学系统作为最终方案,得到了有效焦距29 m,F数9.7,视场角1°×0.3°,外形尺寸3200 mm×6489 mm×8194 mm的空间详查相机光学系统。对该光学系统的性能进行了模拟和验证,结果表明该光学系统的分辨率、传递函数、像差、畸变等各项性能优异。
The advantages and disadvantages of several kinds of three-mirror system and four-mirror system are clear, a kind of high quality space detailed survey camera in the middle or high orbit is formed. According to the same technical target, we analyse the key parameters of space detailed survey camera, six kinds of optical systems:on-axis three-mirrors system, two imaging off-axis three-mirrors system, one imaging three-mirror system, onaxis four-mirrors system, two imaging off-axis four-mirrors system and one imaging four-mirror system has been designed by Zemax software, and all of them can satisfy the requirements of the indicators. The advantages and disadvantages of six systems are given, on consideration of the fabrication, testing, calibration and the technology development of high resolution camera, the one imaging off-axis four-mirrors system has been chosen, gets a effective focus length 29 m, F number 9.7, wide of field 1°×0.3°, shape size 3200 mm×6489 mm×8194 mm space detailed survey camera optical system. The property of the optical system is simulated and validated, the results suggest that the resolution, transfer function, aberration and distortion of system are excellent.
The advantages and disadvantages of several kinds of three-mirror system and four-mirror system are clear, a kind of high quality space detailed survey camera in the middle or high orbit is formed. According to the same technical target, we analyse the key parameters of space detailed survey camera, six kinds of optical systems:on-axis three-mirrors system, two imaging off-axis three-mirrors system, one imaging three-mirror system, onaxis four-mirrors system, two imaging off-axis four-mirrors system and one imaging four-mirror system has been designed by Zemax software, and all of them can satisfy the requirements of the indicators. The advantages and disadvantages of six systems are given, on consideration of the fabrication, testing, calibration and the technology development of high resolution camera, the one imaging off-axis four-mirrors system has been chosen, gets a effective focus length 29 m, F number 9.7, wide of field 1°×0.3°, shape size 3200 mm×6489 mm×8194 mm space detailed survey camera optical system. The property of the optical system is simulated and validated, the results suggest that the resolution, transfer function, aberration and distortion of system are excellent.
引文
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12 Zhang Liang,An Yuan,Jin Guang.Optical design of the uncoaxial three-mirror system with wide field of view and long focal length[J].Infared and Laser Engineering,2007,36(2):278-280.张亮,安源,金光.大视场、长焦距离轴三反射镜光学系统的设计[J].红外与激光工程,2007,36(2):278-280.
13 Liang Shitong,Yang Jianfeng,Xue Bin,et al..Aberration analysis and design of four-mirror reflective optical system[J].Acta Optica Sinica,2010,30(11):3301-3305.梁士通,杨建峰,薛彬,等.四反射镜光学系统像差分析与设计[J].光学学报,2010,30(11):3301-3305.
14 Zhu Yang,Zhang Xin,Wu Yanxiong,et al..Research on the optical design and stray light suppression for off-axis reflective space astronomical telescope[J].Acta Optica Sinica,2014,34(8):0822002.朱杨,张新,伍雁雄,等.离轴反射式空间天文望远镜系统设计及其杂散光抑制研究[J].光学学报,2014,34(8):0822002.
2 Han Changyuan.Recent earth imaging commercial satellites with high resolution[J].Chinese Journal of Optics and Applies Optics,2010,3(3):201-208.韩昌元.近代高分辨地球成像商业卫星[J].中国光学与应用光学,2010,3(3):201-208.
3 Wei Xiaoxiao,Xu Feng,Yu Jianjun.Design of space coaxial field-bias three-mirror optical system with high resolution[J].Chinese J Lasers,2012,39(4):0416002.韦晓孝,许峰,余建军.高分辨率空间同轴偏视场三反光学系统设计[J].中国激光,2012,39(4):0416002.
4 Li Ronggang,Zhang Xingde,Sun Changfeng,et al..Development and analysis of off-axis reflection optical system[J].Laser&Infared,2013,43(2):128-131.李荣刚,张兴德,孙昌峰,等.离轴反射式光学系统的研究进展与技术探讨[J].激光与红外,2013,43(2):128-131.
5 Han Changyuan.Optics and Optical Engineering[M].Beijing:Science Press,2005:230-241.韩昌元.光学与光学工程[M].北京:科学出版社,2005:230-241.
6 Xue Mingqiu,Shen Weiming.Optical Design of Light Weight and Compact High Resolution TDICCD Camera[M].Beijing:Science Press,2005.薛鸣球,沈为民.轻小型高分辨率TDICCD相机的光学设计[M].北京:科学出版社,2005.
7 Han Changyuan.Study on optical system of high resolution space camera[J].Optics and Precision Engineering,2008,16(11):2164-2172.韩昌元.高分辨力空间相机的光学系统研究[J].光学精密工程,2008,16(11):2164-2172.
8 J A Connelly,B J Bosa,P S Davil,et al..Optical metrology and alignment of the James Webb space telescope integrated science instrument module[C].SPIE,2008,7068:70680F.
9 T L Zobrist,J H Burge,H M Martn.Laser tracker surface measurements of the 8.4 m GMT primary mirror segment[C].SPIE,2009,7426:742613.
10 Chang Jun,Weng Zhicheng,Jiang Huilin,et al..Design of long focal length space optical system with three reflective mirror[J].Optics and Precision Engineering,2001,9(4):315-318.常军,翁志成,姜会林,等.长焦距空间三反光学系统的设计[J].光学精密工程,2001,9(4):315-318.
11 Zhang Xiaofei,Chen Lizi,Du Shaojun.Optical system design of off-axis three-mirror camera with resolution of 1 m[J].Laser&Optoelectronics Progress,2013,50(6):062204.张晓飞,陈力子,杜少军.1 m分辨率离轴三反相机光学系统设计[J].激光与光电子学进展,2013,50(6):062204.
12 Zhang Liang,An Yuan,Jin Guang.Optical design of the uncoaxial three-mirror system with wide field of view and long focal length[J].Infared and Laser Engineering,2007,36(2):278-280.张亮,安源,金光.大视场、长焦距离轴三反射镜光学系统的设计[J].红外与激光工程,2007,36(2):278-280.
13 Liang Shitong,Yang Jianfeng,Xue Bin,et al..Aberration analysis and design of four-mirror reflective optical system[J].Acta Optica Sinica,2010,30(11):3301-3305.梁士通,杨建峰,薛彬,等.四反射镜光学系统像差分析与设计[J].光学学报,2010,30(11):3301-3305.
14 Zhu Yang,Zhang Xin,Wu Yanxiong,et al..Research on the optical design and stray light suppression for off-axis reflective space astronomical telescope[J].Acta Optica Sinica,2014,34(8):0822002.朱杨,张新,伍雁雄,等.离轴反射式空间天文望远镜系统设计及其杂散光抑制研究[J].光学学报,2014,34(8):0822002.
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