1.The aim of this thesis is to explore and develop promising niobate and tantalite materials with perovskite-like structure.
本论文的主要目的是探索新型类钙钛矿结构的铌、钽酸盐微波介质材料。
2.The principle, manufacture and application of periodically poled lithium niobate(PPLN) are introduced in detail.
详细介绍了一种波长转换效率很高的周期极化铌酸锂(PPLN)的原理、制作及应用。
3.In this paper, we introduced mostly the growth and measure method of optics-grade and large diameter lithium niobate crystals.
本文着重介绍了大尺寸光学级铌酸锂晶体生长方法,实验中采用中频感应加热方式,利用下电子秤自动控制系统,自制热场。
4.Strontium barium niobate ( SBN ) ceramic is a good electro-optic material and has been widely used.
中文摘要锶钡铌陶瓷是一种很好的透光材料,已可应用于工业上。
5.Application: For lithium niobate single crystal and additive in special optical glass.
用途:产品用于生产铌酸锂晶体和特种光学玻璃添加剂。
6.Application : For made lithium niobate single crystals .
用途:产品用于拉制铌酸锂单晶。
7.Solid-state combustion method has been developed to prepare lithium niobate.
论文采用固相燃烧法制备铌酸锂微晶。
8.We studied the possible micro-region in lithium niobate crystals.
对铌酸锂晶体中可能存在的微区进行了研究。
9.The three kinds of pure lithium niobate crystal samples were measured by the method of external electric fields method.
利用外加电场的方法,对通过三种纯铌酸锂晶体样品的电流进行测量。
10.The development of strontium barium niobate ceramics receives more attention in the research field of lead-free ceramics.
在无铅陶瓷研究领域,铌酸锶钡体系陶瓷材料日益受到人们的关注。