薄膜对解决光学问题是非常自然和合适的,象降低和提高反射率、滤光等等。因此,对近代光学日益重要。理论和工艺的最新发展能够制备更复杂和更有效的膜系。 计算机的使用复杂膜系的计算容易。在各种制造方法中关于镀膜机的容量和效率,过程的稳定性以及膜厚和均匀性的控制。真空蒸发特别显示出显著的进展,这些工艺的进展是由于真空方面以及一般薄膜工艺和特别在光学方面的努力结果。 薄膜材料对可(?)的薄膜器件的工艺生产是非常重要的。材料的品种受到很大的限制,但是我们对每种材料的认识逐渐深化以及膜的制备方法已有不断改进。 本文将对光学干扰应用方面的膜料作一概要的论述 。 Films are very natural and appropriate to solve optical problems, such as reducing and increasing reflectivity, filtering, and the like. Therefore, it is increasingly important for modern optics. Recent advances in theory and technology have enabled more complex and efficient membrane systems to be prepared. The use of computer complex membrane system calculation easy. Capacity and efficiency of coating machines, process stability and control of film thickness and uniformity in various manufacturing methods. Vacuum evaporation in particular shows significant progress, and advances in these processes are due to vacuum as well as to the general thin-film process and especially to optical efforts. Thin film material is very important for the process production of thin film devices. The variety of materials is greatly limited, but our understanding of each material is gradually deepening and the preparation of membranes has been continuously improved. This article will give an overview of the application of optical interference film material.