| 1. | Design and manufacture of antireflection coatingfor plastic pmma
镀减反射膜的研制 |
| 2. | Cylindrical wave reflection and antireflection at media interfaces
在介质内表面处柱面波的反射和减反射 |
| 3. | Optical coatings - part 1 : minimum requirements for antireflection coatings
光学涂层.第1部分:抗反射涂层的最低要求 |
| 4. | Design and test of good performance and broad - hand antireflection thin films based on glan - thompson prism
棱镜高性能宽带减反射膜的研制及性能测试 |
| 5. | Design and fabrication of the broadband infrared antireflection coating on pbmoo4 single crystal in vacuum are explored theoretically and experimentally
本文从理论和实验两个方面讨论了钼酸铅晶体表面的宽带红外增透膜的设计以及其在真空环境中的制备。 |
| 6. | The studies suggest that the antireflection coating has excellent properties as the result of film design , and will be widely used in the fiber optical communication industries
研究表明,以膜系设计的结果为参照,实际所镀膜层性能优异,在光纤通讯领域具有广阔的应用前景。 |
| 7. | Antireflection coating . a thin , dielectric or metallic film applied to an optical fiber surface to reduce its reflection and thereby increase its transmitting ability
抗反光涂层。一种薄的绝缘体或金属薄膜(或者是类似薄膜) ,贴在光纤表面以减少反射,并以此而提高光纤的发射能力。 |
| 8. | 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。 |
| 9. | The results indicate that the two layer antireflection coating of ta2o5 / sio2 could achieve the aim of low reflectance in the broad wave band by the optimization . numerous experiments and a series of testing have been carried out
理论分析与计算结果表明,双层增透膜ta _ 2o _ 5 sio _ 2系最优化设计的结果,能够达到宽波段范围内的增透效果。 |
| 10. | On the basis of the underlying principles in the optical thin film design , by adopting the method of recursion and matrix , we get the mathematical model for the single layer antireflection coating and the multi - layer coating , which have their characteristic reflectance changes
以光学薄膜设计中的隐含规律为基础,采用递推法、矩阵法,分别对单层及多层增透膜的反射率变化建立了理论模型,并在特定的边界条件下进行了求解和理论计算。 |
