| 光谱学与光谱分析 |
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| Design of UV Annular Imaging System for Atmospheric Limb Detection |
| ZHANG Jing1,2, WANG Shu-rong1*, LI Bo1, XUE Qing-sheng1, HUANG Yu1 |
1. Changchun Institute of Optics, Fine Mechanics and Physics,Chinese Academy of Sciences, Changchun 130033, China
2. University of Chinese Academy of Sciences, Beijing 100049, China |
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Abstract In order to meet the requirements of imaging the surrounding 360°scene at one time without rotating the optical system and satisfy the UV limb detecting, a panoramic imaging system was presented for atmospheric UV limb detection. First, considering the special working band and innovative application and proceeding from the basic principle of traditional panoramic annular lens, the curvature radius of four spherical surfaces was adjusted, combined with the detector size so that can get the best MTF. Then, based on the aberration theory, the relay lens system was designed to make up the aberration produced by panoramic annular lens. The separation of positive and negative lens combination with different refraction and Abbe number was used. The negative lens used fused silica, while the positive lens used calcium fluoride, so to correct the apochromatism. Finally, the optical system was optimized with CODE-V and the important tolerance parameters were listed, so that the subsequent processing can be requested. The design results show that the diameter of 80% encircled energy of UV panoramic limb imaging system is below 11 μm,which is smaller than the pixel size of CCD, and the MTF value of the system is higher than 0.7@384 mm-1 over all fields. These data satisfy the requirements of the system and prove the feasibility of panoramic imaging system in atmospheric UV limb detection.
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Received: 2013-04-23
Accepted: 2013-06-20
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Corresponding Authors:
WANG Shu-rong
E-mail: wsrong@ciomp.ac.cn
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[1] XUE Qing-sheng, WANG Shu-rong, LI Fu-tian(薛庆生,王淑荣,李福田). Optics and Precision Engineering(光学 精密工程), 2010, 18(4): 823.
[2] ZHANG Jun-qiang, WU Qing-wen, YAN Chang-xiang(张军强,吴清文,颜昌翔). Optics and Precision Engineering(光学 精密工程), 2011, 19(3): 552.
[3] XUE Qing-sheng(薛庆生). Acta Photonica Sinica(光子学报), 2012, 41(6): 631.
[4] WANG Li-ping, LI Chun, JIN Chun-shui(王丽萍,李 春,金春水). Optics and Precision Engineering(光学 精密工程), 2011, 19(7): 1504.
[5] Huang Zhi, Bai Jian, Hou Xiyun. Optics Express, 2012, 20(6): 6085.
[6] Tao Ma, Yu Jingchi, Pei Liang. Optics Express, 2011, 19 (5): 3843.
[7] CHENG Hui-quan, YAO Wei-yong, YANG Guo-guang(程惠全,姚炜勇,杨国光). Opto-Electronic Engineering(光电工程), 2002, 29(6): 16.
[8] Lan Yungsung, Lin Chihming. Applied Optics, 2009, 48(18): 3391.
[9] CHEN Jiao, JIAO Ming-yin, CHANG Wei-jun(陈 姣,焦明印,常伟军). Journal of Applied Optics(应用光学), 2011, 32(2): 195.
[10] Yang Qinghua, Zhao Baochang, Zhou Renkui. Chinese Optics Letters, 2008, 6(2): 146. |
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