6.2.4 抗反射层(Antireflection Coatings) 6-6 6.2.5 金属电极 6-6 6.3 太阳电池之制造流程 6-8 6.3.1 表面粗糙结构化(Texturization): 6-9
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Antireflection coatings is designed by using the advanced software for optics design , in the process of design the combination of the design software and the classical idea of design to film coefficient is adopted.
借助先进的光学设计软件TFC3.5分析设计了减反射膜,设计过程中采用设计软件与经典的膜系设计思想相结合的方法。
参考来源 - 等离子体辅助沉积大口径减反射膜However, a method that is not only able to produce perfect and broadband antireflection coatings, but also simple, robust, low cost and suitable for massive production is still in search.
然而这些已报道的方法均不能满足制备大面积、低成本宽带增透膜的需要。
参考来源 - 增透膜的制备及其性能·2,447,543篇论文数据,部分数据来源于NoteExpress
Better quality objectives, e. g. with high quality antireflection coatings, minimize the need of light.
高品质的物镜,如配有高品质的防反射涂层,最大程度地降低了对光源的要求。
Some calculations are performed on grazing incidence antireflection coatings, all dielectric mirrors and band pass filters using this method.
应用这一方法,在掠角入射下对减反射涂层、全介质反射镜以及带通滤光片进行了计算。
A series of techniques for optical thin films at middle infrared band are discussed in the paper, including edge filters, high reflection and antireflection coatings.
文章讨论了中红外波段激光器使用的一系列光学薄膜的设计方法和制备工艺。
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