Optimization of thickness uniformity of coatings on spherical substrates using shadow masks in a planetary rotation system  被引量：3

作　　者：孙建 张伟丽 易葵 邵建达 

机构地区：[1]Key Lab. of Materials for High Power Laser, Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences [2]University of Chinese Academy of Sciences

出　　处：《Chinese Optics Letters》2014年第5期72-75,共4页中国光学快报（英文版）

摘　　要：A model is developed to improve thickness uniformity of coatings on spherical substrates rapidly and au- tomatically using fixed shadow masks in a planetary rotation system. The coating thickness is accurately represented by a function composed of basic thickness, self-shadow effect, and shadow mask function. A type of mask with parabolic contours is proposed, and the thickness uniformity of coatings on spheri- cal substrates can be improved in a large range of ratios of clear aperture （CA） to radius of curvature （RoC） by optimizing shadow masks using a numerical optimization algorithm. Theoretically, the thick- ness uniformity improves to more than 97.5% of CA/RoC from -1.9 to 1.9. Experimentally, the thickness uniformities of coatings on a convex spherical substrate （CA/RoC = 1.53） and on a concave spherical substrate （CA/RoC=-1.65） improve to be better than 98.5% after corrected by the shadow masks.A model is developed to improve thickness uniformity of coatings on spherical substrates rapidly and au- tomatically using fixed shadow masks in a planetary rotation system. The coating thickness is accurately represented by a function composed of basic thickness, self-shadow effect, and shadow mask function. A type of mask with parabolic contours is proposed, and the thickness uniformity of coatings on spheri- cal substrates can be improved in a large range of ratios of clear aperture （CA） to radius of curvature （RoC） by optimizing shadow masks using a numerical optimization algorithm. Theoretically, the thick- ness uniformity improves to more than 97.5% of CA/RoC from -1.9 to 1.9. Experimentally, the thickness uniformities of coatings on a convex spherical substrate （CA/RoC = 1.53） and on a concave spherical substrate （CA/RoC=-1.65） improve to be better than 98.5% after corrected by the shadow masks.

关 键 词：ALGORITHMS COATINGS OPTIMIZATION SPHERES Thickness measurement 

分 类 号：O439[机械工程—光学工程]