1) LiTaO3 thin film
钽酸锂薄膜
1.
The LiTaO3 thin film material and its applications in pyroelectric infrared sensors are presented in this paper.
介绍了钽酸锂薄膜材料及其热释电红外传感器应用研究概况;简要阐述了热释电红外传感器的工作原理;着重分析了钽酸锂薄膜材料的新制备技术,以及在热释电红外传感器应用方面的研究现状;指出了钽酸锂薄膜材料及其热释电红外传感器应用研究发展前景。
2.
The LiTaO3 thin film was chosen as infrared sensing film and prepared by a sol-gel process using lithium acetate and tantalum ethoxide as starting materials.
用醋酸锂和乙醇钽作为起始反应物,通过溶胶凝胶工艺生成了对红外敏感的钽酸锂薄膜,并详细讨论了基于钽酸锂薄膜的红外探测器件制备工艺。
3) LiMn2O4 thin film
锰酸锂薄膜
1.
LiMn2O4 thin film was prepared on the stainless steel substrate by the sol-gel method using a spin coa-ter.
主要讨论了前驱体溶胶中锂盐浓度、PVP浓度以及旋转涂覆转速对锰酸锂薄膜表面形貌及膜厚的影响。
5) lithium tantalate
钽酸锂
1.
Starting from the crystallographic data of lithium niobate and lithium tantalate crystals, structural characteristics and chemical bonding behaviors of both crystals are studied.
从铌酸锂和钽酸锂晶体的结晶学数据出发,分析其结构特征和组成化学键的结合情况。
2.
Because the thicker of crystal, the better for high-power laser bean shining, it s pivotal for lithium tantalate crystal to do some research with lithium tantalate crystal which has more than 1mm thickness in dectrical-poling.
因为大功率激光束作用要求晶体的厚度越大越好,所以研究厚度在毫米量级或以上的钽酸锂晶体的电场极化技术成为关键。
3.
The comparative study on electrical properties of Y36° lithium tantalate crystal before and after reduction (termed as CLT and BLT respectively) was investigated.
以Y36°钽酸锂(LiTaO3,LT)晶片为研究对象,通过对同成分LT晶片(CLT)和深度还原黑色LT晶片(BLT)的比较研究,探讨了表面还原处理对钽酸锂晶片电学性能的影响。
6) LiTaO_3
钽酸锂
1.
Study on Free-Pyro Black LiNbO_3 and LiTaO_3 Crystals;
弱热释电效应黑色铌酸锂、钽酸锂晶体研究
2.
Ab initio study on optical transparency under high pressure for LiTaO_3 and sapphire;
钽酸锂、蓝宝石在高压下的光学性质从头算研究
补充资料:氮化钽电阻薄膜
分子式:
CAS号:
性质:一种钽基中低阻薄膜。主成分为氮化钽。具有熔点高(3090℃)、电阻温度系数小和稳定性高的特点。电阻率180~220μΩ/cm,方阻50~100Ω,TCR<-50×10-6/℃。采用溅射法工艺制备。用于制作中低阻薄膜元件。
CAS号:
性质:一种钽基中低阻薄膜。主成分为氮化钽。具有熔点高(3090℃)、电阻温度系数小和稳定性高的特点。电阻率180~220μΩ/cm,方阻50~100Ω,TCR<-50×10-6/℃。采用溅射法工艺制备。用于制作中低阻薄膜元件。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条