说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 词典 -> 蓝宝石单晶光纤
1)  sapphire fiber
蓝宝石单晶光纤
1.
WT5”BZ]:In order to facilitate the medical laser transmission,in this paper,weve plastically bent two groups of sapphire fibers with diameters of 550 μm and 750 μm by means of CO 2 lasers,the average bending radius is 3.
为满足医用激光传能要求 ,使用 CO2 激光对直径分别为 5 5 0 μm和 75 0 μm的两组蓝宝石单晶光纤进行了塑性弯曲 ,平均弯曲半径为 3。
2.
s The sapphire fiber thermometer ranging from the room temperature to 1800℃ is described.
表述了从室温到1800℃测温范围的全程测温的蓝宝石单晶光纤温度传感器。
2)  sapphire single crystal
蓝宝石单晶
1.
Study on the technology of large size sapphire single crystal growth by SAPMAC;
SAPMAC法生长大尺寸蓝宝石单晶工艺研究
2.
The professional modeling software package CrysVUn was employed to study the process of a large sapphire single crystal growth using Kyropoulos method.
本文采用专业晶体生长模拟软件CrysVUn对泡生法生长大尺寸蓝宝石单晶进行了计算机模拟。
3)  sapphire fiber
蓝宝石光纤
1.
Growth and optical performance of ZnO films on sapphire fiber ends;
在蓝宝石光纤端面上生长ZnO薄膜的方法及光学性能分析
2.
Research on characteristic parameter of sapphire fiber blackbody cavity transient high temperature sensor measurement system;
蓝宝石光纤黑体腔瞬态高温传感器测量系统特性参数研究
3.
The temperature-dependent optical properties of ZnO film deposited on sapphire fiber-ending
蓝宝石光纤端面上ZnO薄膜的制备及其温变光学特性
4)  sapphire optical fiber
蓝宝石光纤
1.
Study on pyrometer with sapphire optical fibers;
蓝宝石光纤高温仪的研究
2.
A new sapphire optical fiber high_temperature sensor and its thermometer were developed based on the mechanism of blackbody radiance.
基于黑体辐射原理 ,研制成新型蓝宝石高温光纤传感器及光纤温控仪 ,对蓝宝石光纤高温传感头的热辐射特性进行了理论分析 。
3.
Sapphire optical fiber thermal probe with end Cr3+ ions doped is grown by laser heated pedestal growth method.
利用所制备的荧光温度传感头,用波长405 nm紫色LED作为泵浦光源,采用相关检测技术在线实时测量荧光寿命,研制成测温范围0℃~450℃一体型蓝宝石光纤荧光温度传感器。
5)  single-crystal sapphire
蓝宝石单晶片
6)  titanium-doped sapphine laser crystal
掺钛蓝宝石激光晶体
补充资料:掺钛蓝宝石激光晶体
分子式:Ti3+:Al2O3 
CAS号:

性质:在基质晶体中掺入三价钛离子而形成的输出激光可调谐激光晶体。六方晶系。熔点2050℃。空间群D36d-R3C,硬度9,仅次于金刚石。晶体具有宽的吸收带(400~600nm)、宽的发射带(650~1200nm)和大的发射截面(3×10-19cm2),荧光寿命3.2μs。采用焰熔法、提拉法、区熔法、热交换法等方法制备。军事上用于遥感、雷达,工业上用于激光加工等。

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