硫系玻璃可被镀在用于光学薄膜和波导的非晶形膜上。
Further, these chalcogenides glasses can be deposited in an amorphous thin film for optical coatings or waveguides.
而硫系玻璃正是一种有着许多迷人性能的新型光学材料。
Chalcogenide glasses are novel materials with very intriguing properties for a variety of photonic applications.
并具体阐述了硫系玻璃光纤在红外波段的被动化学传感应用。
Passive applications of chalcogenide glass fibers in the infrared are described specifically for optical sensing of chemical species.
本文介绍了氟化物玻璃和硫系玻璃的化学组成、特征温度和透射光谱。
The chemical composition, characteristic temperatures and optical transmission spectra of fluoride and chalcogenide glasses are presented.
该方法简单方便,为制作硫系玻璃薄膜提供了新思路,但还需要进一步完善。
This method is simple and convenient, and provides a new way to make chalcogenide films, but need to be improved.
高性能透红外硫系玻璃材料的开发和应用在很大程度上受到杂质对透过性能影响的制约。
The development and application of chalcogenide glasses as an IR transmitting material with high performance have long been impeded by insufficient degree of purity present in glasses.
根据半导体玻璃的能带模型以及XPS的实验结果,提出了该硫系玻璃电极的选择性响应机理。
Based on the models of energy band structure of the semiconductor glasses and the results of XPS, the mechanism of ion-selective response of the glass electrodes was proposed.
赛莫金娜教授开发的这种非金属材质的披风,采用了与红外线波长尺寸相同的玻璃共振片,由硫系玻璃制成,不会导电。
Professor Elena Semouchkina has developed a nonmetallic cloak that uses identical glass resonators made of chalcogenide glass, a type of material that does not conduct electricity.
赛莫金娜教授开发的这种非金属材质的披风,采用了与红外线波长尺寸相同的玻璃共振片,由硫系玻璃制成,不会导电。
Professor Elena Semouchkina has developed a nonmetallic cloak that uses identical glass resonators made of chalcogenide glass, a type of material that does not conduct electricity.
应用推荐