钇铝石榴石

本文报导一种以掺钕钇铝石榴石为工作物质的激光器，其输出光束达衍射极限。

A Nd : YAG laser with diffraction limited output is reported .

掺钕钇铝石榴石激光局部照射加全膀胱光动力疗法治疗膀胱癌

Treatment of bladder cancer by nd : YAG laser local irradiation and

高浓度掺钕钇铝石榴石（Nd∶YAG）晶体的光谱与激光特性

Spectra and Laser Characteristics of High-Doped Nd ∶ YAG Laser Crystals

共沉淀法制备钇铝石榴石（YAG）纳米粉体

Synthesizing yttrium aluminum garnet ( yag ) nano-powder by co-precipitation method

共沉淀法制备纯相钇铝石榴石（YAG）纳米粉体中的若干影响因素

Effect factors on pure phase of YAG nano-sized powder by coprecipitation method

水热法制备微米级钇铝石榴石（YAG）晶体

Hydrothermal Synthesis of Yttrium Aluminum Garnet ( YAG ) Micro-crystals

YAG掺铷&钇铝石榴石激光晶体胶粘剂

Y-Al garnet laser crystal doped Nd ( NYAG ) adhesives

均相共沉淀法合成钇铝石榴石（YAG）纳米粉末的研究

Study on Yttrium Aluminum Garnet ( YAG ) Nanometer Powders Synthesized by the Homogeneous Coprecipitation

钇铝石榴石激光器yag激光器

Yttrium aluminum garnet laser

方法通过分析脉冲激光光束和CCD测量系统的特点，提出在低重复和高重复频率情况下的多种同步测量方法，并通过对钇铝石榴石（YAG）激光光束质量的评价实验加以验证。

Methods Several synchronization methods were designed according to the research on the charactristics of pulsed laser beam and CCD measurement system .

钇铝石榴石（YAG）单晶属等轴晶系，具有光学均匀性，无双折射效应，是广泛使用的激光和发光基础材料。

Due to its homogeneous optical properties and lack of birefringence effects , Nd : YAG is widely used for lasers and luminescence materials .

方法：应用Ho-Nd∶YAG（钬-钕∶钇铝石榴石）组合激光机经尿道行前列腺切除术23例。

Methods : 23 cases of BPH were treated with Holmium / Nd ∶ YAG laser transurethral resection of prostate , and the effects were evaluated .

铈激活钇铝石榴石（Ce3+∶YAG）单晶是综合性能优良的快衰减闪烁材料。

Yttrium aluminium garnet single crystal activated by cerium ( Ce 3 + ∶ YAG ) is a fast scintillator with excellent mechanical and chemical resistance .

采用固相反应法用不同的烧结速率在1850℃烧结合成过烧钇铝石榴石（YAG）陶瓷，YAG陶瓷晶界形貌随烧结速率的变化而不同。

Oversintered YAG ceramics were synthesized at different sintering rates by solid-state reaction method at1850 ℃, and the morphology of YAG ceramics grain boundary changed with different heating rates .

钇铝石榴石（Y3Al5O12，YAG）具有良好的光学性能，是一种重要的激光基质材料。

Yttrium aluminum garnet ( Y3Al5O12 , YAG ) is an important laser material due to its excellent optical properties .

钇铝石榴石（YAG）多晶陶瓷具有良好的光学、力学和热学性能，它有望取代YAG单晶成为新一代固体激光基质材料。

Yttrium Aluminum Garnet ( YAG ) polycrystalline ceramics has excellent optical , mechanical and thermal properties , it is expected to replace the YAG single crystal as a new generation of solid-state laser host material .

稀土铈离子掺杂钇铝石榴石荧光粉（YAG：Ce3+）具有很高的发光效率和化学稳定性，所以被广泛应用于真空紫外、等离子平板显示、固体激光器以及白光LED等应用技术领域。

Ce3 + - doped YAG phosphors have been recognized as the most excellent phosphors satisfactorily applied in vacuum ultraviolet . plasma display panels , solid-stated lasers , and white LED commercial market , because of the high luminescent efficiency and chemical stability .

钇铝石榴石Y3Al5O12（简称YAG），具有耐高强度辐照和电子轰击的优点，被广泛的用作发光的基质材料。

Yttrium Aluminum Garnet ( YAG ) was widely used for matrix in luminescence due to its stability under high radiation strength and electron bombardment .

钇铝石榴石（Y3Al5O12，YAG）透明陶瓷因其优异的光学性能和制备工艺方面的优势而成为极具潜力的激光材料。

Translucent yttrium aluminum garnet ( YAG ) ceramics become a potential laser material because of its excellent optical properties and advantages of preparing technology .

钇铝石榴石（YAG）单晶具有优异的化学稳定性和光学性能，是一种重要的固体激光器的基质材料，广泛应用于科研、军事、工业、医疗等各个领域。

Yttrium aluminum garnet ( YAG ) single crystal has excellent chemical stability and optical properties , which is important solid-state laser host material , and widely used in scientific research , military , industrial and medical fields .

蓝光LED与黄色钇铝石榴石荧光粉（Y3Al5O（12）：Ce，YAG：Ce）配合制备白光LED，是当前发展白光LED的主流，但其存在发光效率低的缺点。

The white LED consisting of a blue LED and yellow emitting Y_3Al_5O_ ( 12 ): Ce ( YAG : Ce ) is the main route , but it has a low luminescent efficiency .

柠檬酸-凝胶燃烧法制备钇铝石榴石（Y3Al5O（12））纳米粉体的研究

Fabrication of Yttrium Aluminum Garnet ( Y_3Al_5O_ ( 12 )) Nanometer Powder by Citrate-Gel Combustion Method

在钇铝石榴石单晶基片上用射频溅射法制取了Y2O2S∶Eu红色发光薄膜。

Y 2O 2S ∶ Eu cathodoluminescent thin films have been grown on yttrium aluminum garnet substrates by RF sputtering with sintered Y 2O 2S ∶ Eu phosphor as a target .

研究发现，透明多晶钇铝石榴石（YAG）陶瓷与其单晶材料相比，可实现大尺寸、高掺杂浓度、低成本，在高功率全固态激光器中有着巨大的应用价值。

It was showed through the research that transparent polycrystalline YAG ceramics are low cost , and can be highly doped with Nd ~ ( 3 + ) and possible for lager size laser polycrystal . It is a promising ceramic for high power laser host materials .

掺镱钇铝石榴石（Yb3+：Y3Al5O12，Yb3+：YAG）激光晶体具有良好的光学和热学性能，因而被广泛地用于固体激光器中。

Among those Yb3 + - doped materials , Yb3 + : YAG ( Yb3 + : Y3Al5O12 ) crystal is widely used in the solid-state laser due to the good optical and thermal-mechanical properties of the YAG host .

当前发展WLED的主流是组合蓝光LED与钇铝石榴石荧光粉（YAG：Ce3+）。性能优异的荧光粉可以有效提高WLED发光效率。

The current mainstream of the fabrication for WLED is combination of a blue LED and yellow emitting Y3Al5O12 : Ce ( YAG : Ce3 + ) . Phosphors with excellent performance can improve the luminescent efficiency of WLED effectively .

目的探讨双频双脉冲U100掺钕钇铝石榴石（Nd：YAG）激光粉碎泌尿系结石的疗效及安全性。

Objective To evaluate the effect and safety of the frequency-doubled double-pulse U-100 neodymium of YAG ( Nd : YAG ) laser lithotripsy of calculi in the urinary tract .

分别用钕钇铝石榴石（Nd-YAG）激光在2W、5W、10W三种低功率下进行间质热疗，激光作用时间分别为800s、800s和600s，并设立对照组。

The neodymium yttrium aluminium garnet ( Nd-YAG ) laser was applied for interstitial thermotherapy under low power of 2 W , 5 W and 10 W respectively , and for heating time of 800 s , 800 s and 600 s respectively , meanwhile the control group was established .

铱金坩埚中钇铝石榴石固化熔体移出技术

Technology for Removing Yttrium Aluminium Garnet Solidified Melt in Iridium Crucible

共沉淀法制备掺钕钇铝石榴石透明激光陶瓷的研究

Neodymium-Doped Yttrium Aluminum Garnet Transparent Laser Ceramics Prepared by Co-Precipitation Method