Abstract:The high precision scattering spectrum of spatial fragment with the minimum brightness of 4.2 and the resolution of 0.5 nm has been observed using spectrum detection technology on the ground. The obvious differences for different types of objects are obtained by the normalizing and discrete rate analysis of the spectral data. Each of normalized multi-frame scattering spectral line shape for rocket debris is identical. However, that is different for lapsed satellites. The discrete rate of the single frame spectrum of normalized space debris for rocket debris ranges from 0.978% to 3.067%, and the difference of oscillation and average value is small. The discrete rate for lapsed satellites ranges from 3.118 4% to 19.472 7%, and the difference of oscillation and average value relatively large. The reason is that the composition of rocket debris is single, while that of the lapsed satellites is complex. Therefore, the spectrum detection technology on the ground can be used to the classification of the spatial fragment.
宋 薇1,冯诗淇1,石 晶1,徐 蓉2,王功长2,李滨宇1,刘 瑜1,李 双1,曹 睿1,蔡红星1,张喜和1,谭 勇1*. 基于散射光谱的空间碎片分类研究[J]. 光谱学与光谱分析, 2015, 35(06): 1464-1468.
SONG Wei1, FENG Shi-qi1, SHI Jing1, XU Rong2, WANG Gong-chang2, LI Bin-yu1, LIU Yu1, LI Shuang1, CAO Rui1, CAI Hong-xing1, ZHANG Xi-he1, TAN Yong1*. Research of Identify Spatial Object Using Spectrum Analysis Technique. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2015, 35(06): 1464-1468.
[1] Nicodemus F E, Richmond J C, Hsia J J. National Bureau of Standards (U.S.), Monograph, 1977. [2] Kouiti Hasegawa, Hiroshi Matsuyama, Hayato Tsuzuki, et al. Remote Sensing of Environment, 2010, 114: 514. [3] Zbigniew Otremaba, Jacek Piskozub. Optical Society of America, 2004, 12(8): 1671. [4] Stephen R Marschner, Stephen H Westin, Eric P F Lafortune, et al. Optical Society of America, 2000, 39(16): 2592. [5] Addy Ngan, Frédo Durand, Wojciech Matusik. EGSR’05 Proceedings of the Sixteenth Eurographics Conference on Rendering Techniques, 2005. 117. [6] HAN Yu-ge, XUAN Yi-min(韩玉阁, 宣益民). Infrared and Laser Engineering(红外与激光工程), 2005, 34(1): 34. [7] LI Ya-nan, SUN Xiao-bing, QIAO Yan-li(李雅男, 孙晓兵, 乔延利). Acta Optica Sinica(光学学报), 2009, 29(1): 67. [8] HUANG Tao, HU Hui-ling, HU Yi-hua, et al(黄 涛, 胡惠灵, 胡以华,等). Laser & Infrared(激光与红外), 2010, 40(7): 685. [9] WANG Fu-gang, ZHANG Wei, WANG Hong-yuan, et al(王付刚, 张 伟, 汪洪源,等). Acta Optica Sinica(光学学报),2012, 32(10): 1004002-1. [10] MEN Tao, XU Rong, LIU Chang-hai, et al(门 涛, 徐 蓉, 刘长海,等). High Power Laser and Particle Beams(强激光与粒子束), 2013, 25(3): 587. [11] ZHAO Bin, YANG Su-hui, WANG Shi-tao, et al(赵 彬, 杨苏辉, 王世涛,等). Acta Optica Sinica(光学学报), 2009, 29(12): 3395. [12] LIU Wen-qing, ZHANG Yu-jun, XIE Pin-hua, et al(刘文清, 张玉钧, 谢品华,等). Chinese Journal of Lasers(中国激光),2000, 27(7): 633.
