激光材料

所以Nd∶GdVO4晶体是理想的激光材料。

So Nd ∶ GdVO 4 crystal is an excellent laser material .

GaN是一种新型的宽禁带半导体兰色发光与激光材料。

GaN is a new wide band gap semiconductor laser material .

YAG固体激光器与激光材料加工

YAG Laser and Laser Material Processing

但是在对ZnO的研究过程中，泵浦阈值较高是限制ZnO作为紫外激光材料的一个难点。

During the research on ZnO , the high lasing threshold confines the development of ZnO as laser material .

染料掺杂的SiO2基蓝光波段固体激光材料的研究

Study of the Dye doped and SiO 2 based Blue Band Solid Laser Materials

这为ZnO纳米棒与金属Ag的复合材料作为紫外激光材料提供了一个很好的发展方向。

This will bring a great help to the development of composite material of ZnO and silver as UV laser materials .

YAG：V~（2+）激光材料晶格畸变及其EPR参量研究

Investigations of Lattice Distortion and EPR Parameters for YAG : V ~ ( 2 + ) Laser Crystal

Cr，Nd∶YAG透明陶瓷很可能是一种具有潜力的自调Q激光材料。

High-quality Cr4 + , Nd3 + ∶ YAG transparent ceramics , which combine the gain media and the saturable absorber together , may be a potential self-Q-switched laser material .

比较详细的介绍了常见的Nd和Cr离子激光材料，特别是给出了几种广泛使用的Nd离子晶体的参数。

And the characteristics of Nd and Cr ions laser materials were described in detail ; especially , some key parameters of several commonly used Nd ion crystals were also listed .

稀土掺杂YAG透明陶瓷还是重要的固体激光材料，在激光武器、材料加工、生物医疗等领域具有广泛的应用前景。

Besides , rare earth doped YAG transparent ceramics are important solid-state laser materials , and are widely in various fields of laser weapons , materials processing , and biomedical .

基于Yb：YAG激光材料开展了新一代高效率、重复频率大能量DPSSL系统的设计。

Designed a High-efficiency , rep-rate DPSSL system base on Yb : YAG material . 5 .

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 .

为了开发新型激光材料，采用激光加热基座法将Cr4+∶YAG单晶光纤和Nd3+∶YAG单晶光纤生长为一体化复合单晶光纤。

Composite Cr ~ ( 4 + )∶ YAG-Nd ~ ( 3 + )∶ YAG crystal fibers are grown by way of laser heated pedestal growth ( LHPG ) method in order to develop novel laser materials .

稀土配合物由于稀土元素特殊的4f电子轨道和有机配体对激发光的高效吸收能力而能发射出强烈的荧光，可被广泛应用于显示，荧光探针，激光材料等领域。

Organic rare-earth complexes can emit strong fluorescence due to the special 4f electron structure of rare-earth and outstanding absorbing light ability of organic ligands .

复合材料（SBA-15）-（DBC-ASA）在激光材料等领域中具有潜在应用价值。

The ( SBA-15 ) - ( DBC-ASA ) composite materials have the potential applied value in laser material field .

兼顾冷却时间、材料所能承受的应力及晶体生长尺寸，以及实现100kW的平均功率输出等因素，Nd：GGG晶体是目前三者中比较适合于作为高平均功率、重复率热容方式工作的激光材料。

Taken cooling time , fracture limit and obtainable size of the crystal into account , Nd : GGG should be the suitable active medium for high average power , repetitive frequency heat capacity laser .

新型固态染料激光材料光谱特性的研究

Studies of Spectral Characteristices of New Solid state Dye Laser Materials

激光材料加工技术的工业应用

New Progress of Laser Material Processing Technologies in Industry Applications

红外激光材料上的非晶碳氢膜及其激光破坏

Hydrogenated Amorphous Carbon Films on Infrared Laser Materials and its Laser-Induced Damage

固体激光材料的晶体生长技术

Crystal Growth Technique of the Solid State Laser Materials

上转换现象是稀土元素激光材料具有的特性。

The phenomenon of up-conversion is the peculiar property of rare earth ions .

一种蓝色聚合物激光材料

A copolymer laser material with a blue stimulated emission

掺Nd~（3+）激光材料的研究进展

Progress in Research on Nd ~ ( 3 + ) Ion-doped Laser Materials

固溶态染料激光材料基质的合成和性能的研究

Study on the synthesis and properties of the polymer matrix for dye laser

此光纤有望成为宽带光放大和调谐激光材料。

This Bi-doped fiber is promising for broadband optical amplification and widely tunable laser .

新型紫外可调谐激光材料氟化物晶体生长与性能的研究

Study on Growth and Performance of Fluoride Crystals for New kind of UV Tunable Lasers

日本激光材料加工和医疗应用

Materials processing and medical applications in Japan

在过去的几十年中，对激光材料的研究多集中在无机材料方面。

In the past few decades , research of laser materials has been mainly focused on inorganic materials .

对全固态激光器中比较常见的固体激光材料的特点进行了对比。

The solid-state lasers for is more common solid laser material of the characteristics of the contrast . 2 .

实验表明，掺Er3+和Yb3+的硼酸铋玻璃是一种具有潜在发展前途的固体激光器和光纤放大器用激光材料。

The results show that the Er3 + and Yb3 + doped bismuth borate glass are promising laser materials .