第24卷第11期 2016年11月
文章编号1004-924X(2016)11-2627-09
光学精密工程
Optics and Precision Engineering
Vol.24No.11
Nov.2016
航天消光黑漆双向反射分布函数的测量与应用
赵青1,2＊，赵建科，徐亮，刘峰，李朝辉1,2（1.中国科学院西安光学精密机械研究所，陕西西安710119：
2.中国科学院大学，北京100049）
摘要：为了了解经过消光黑漆(Z306)喷涂处理后航天相机遮光罩表面对杂散光的散射特性，对喷涂了Z306的铝板样品进行了双向反射分布函数(BRDF)测量和建模分析。通过测量获得了黑漆样片在0.65um波段的BRDF值。结合Z306 黑漆测量数据的散射特征，选择了适合粗糙黑漆表面的Microfacet-based模型，并对模型进行了修正。使用修正的
差带来的缺陷。将黑漆的BRDF数据代人软件，分析并进行了光学系统杂散光测试验证。结果表明：采用修正的 Microfacet-based模型处理黑漆的BRDF后，分析光学系统杂散光（点扩散函数，PST)得到的结果与实际测量的杂散光(PST)的一致性很高,实测值与分析值比值的对数精度优于O.5。得到的结果证明了BRDF建模的必要性和数据处理的准确性，为光学系统的杂散光抑制提供了重要的保障。
关键词：航天相机；消光黑漆；双向反射分布函数；光学系统；杂散光；建模；误差分析
中图分类号：V447.3；V416.6
文献标识码：A
doi;10.3788/0PE.20162411.2627
BRDF measurement of matte coating and its application ZHAO Qingl2*,ZHAO Jian-ke',XULiang',LIUFeng',LI Zhao-hui'-2
(l.Xian Institute of Optics and Precision Mechanics, Chinese Academy of Sciences,Xi'an 710119,China;
2.University ofChineseAcademyof Sciences,Beijing100049,China)
*Corresponding author，E-mailzhaoqing@opt.cn
Abstract: To explore the scattering characteristics of the stray light on hood surface of a camera , the Bidirectional Reflectance Distribution Function (BRDF) of the matte coating(Z3O6） on a aluminium plate specimen was measured and modeled to suppress the stray light . The BRDF value of the specimen coated with matte coating Z306 at O.65 μm was obtained.On the basis of the scattering characteristics of the specimen coated with matte coating Z 3O6 , the microfacet-based model suitable for roughness matte coating was selected and corrected . The corrected microfacet-based model was used to model and process the measurement data and to obtain the BRDF data of the specimen in the whole hemisphere space to make up the defects of the less data and measurement errors . The BRDF data of the matte coating was induced to the software to analyze the stray light of an optical system and to compare the performance with the results of the stray light measurement . It shows that after the measurement data are processed by the correction microfacet-based model, the analysis results of
收稿日期：2016-08-11；修订日期：2016-09-19，
基金项目：神光Ⅲ大科学工程资助项目（No.091Z512B0A）