全固态激光器
- 网络all-solid-state laser;dpssl;DPL
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LD泵浦的全固态激光器的单频实现方法
Methods of obtaining single-frequency of all-solid-state lasers intracavity frequency doubling in diode-pumped
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本论文以LD泵浦全固态激光器为研究中心,进行理论分析和实验研究。
This dissertation has made theoretical analysis and experimental study on LD-pumped all-solid-state lasers .
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用全固态激光器和一维CCD测定微粒粒径
Using Portable Laser and CCD to do Small Particle Sizing
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双调Q开关热退偏补偿全固态激光器
Novel Double Q-Switcher Structure for Thermal Induced Depolarization Compensation in All-Solid-State Laser
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高重复频率电光调Q全固态激光器研究进展
Recent Progresses of LD Pumped Solid State Lasers with High Repetition Rate Electro-Optic Q-Switch
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LD抽运Yb∶YAG全固态激光器输出功率特性分析
Analysis of Output Power Property on All-Solid-State Laser of LD-Yb ∶ YAG
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大功率LD泵浦全固态激光器综述
Summarize of High - power Diode - pumping All - solid - state Laser Technology
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LD抽运全固态激光器具有结构简单、寿命长、运转稳定等特点,近年来得到广泛的发展。
LD pumping solid state laser is compact , long life time and stability , which develop widely .
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Nd∶GdVO4和Nd∶YAG全固态激光器输出特性的比较
Analysis of Output Characteristic of Nd ∶ GdVO_4 and Nd ∶ YAG on All-solid-state Lasers
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高功率全固态激光器腔内倍频晶体KTP温度场的解析分析
Temperature field analytical-analysis of intracavity doubling frequency crystal KTP in High power all-solid-state laser
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最后对LD端面泵浦的全固态激光器作为太赫兹波泵浦源的研究进行了总结与展望。
At last , we summarize and make an outlook to the LD end-pumped solid-state lasers as terahertz pumping source .
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LDA侧面泵浦全固态激光器及其频率转换特性研究
Characteristics Investigation of Solid State Laser by LDA Side Pumped and It 's Frequency Transform
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LD泵浦全固态激光器是激光技术领域的一个重要分支,因此研制与其配套的激光功率检测设备也是一个不可或缺的内容。
LD pumped solid-state laser is an important branch of laser technology , so researching on the matching power detectors are necessary .
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并对钛宝石激光器调谐至808nm,端面抽运Nd∶YAG陶瓷被动调Q全固态激光器的脉冲运转进行了较为详细的理论分析和实验研究。
In particular , the experimental study on Ti ∶ sapphire end-pumped Nd : YAG ceramic laser passively Q-switched by Cr ~ ( 4 + )∶ YAG saturable absorbers was carried out .
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重点分析了高功率LD阵列泵浦的固体激光器热效应问题,提出了LD阵列与激光介质分别水冷的方案来解决高功率全固态激光器的热效应问题。
The method of individually water cooling of the LD array and the laser crystal is giver after analyzing the thermal effect of high power LD pumped solid-state laser .
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用低温生长GaAs红外晶体材料作为饱和吸收体兼输出镜,在二极管泵浦全固态激光器上实现了调Q锁模。
A diode-pumped passively Q-switched mode-locked Nd : YV04 laser is demonstrated by using GaAs , an infrared crystal grown at low temperature ( LT-GaAs ) as an absorber as well as an output coupler .
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二极管泵浦全固态激光器(DPSSL)是激光研究领域一个重要发展方向。
LD pumped solid-state laser ( LDPSSL ) is an important direction in the field of laser research .
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研究了绿光平均功率达84W的高稳定声光调Q全固态激光器。
A high stable 84W acousto-optic Q-switch solid-state green laser , which is pumped by thirty 20W high power laser diodes was reported .
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详细讨论了Yb:YAG激光晶体的能级结构和光学特性,通过建立准三能级调Q激光系统的理论模型,得到了调QYb:YAG全固态激光器的输出特性。
The crystal energy structure and optical characteristics of Yb : YAG have been discussed in detail . The output characteristics of Yb : YAG all-solid-state laser have been obtained by establishing the theoretical model of Q-switched in quasi-three-level laser system .
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激光二极管泵浦的全固态激光器(DiodePumpedSolidStateLasers,DPSSL)具有效率高、稳定性好、光束质量好、结构紧凑、寿命长等优点。
Diode pumped solid state lasers ( DPSSL ) have become the central focus of the field of lasers due to their many advantages such as high efficiency , stability , good quality of light beam , compactness , long time and etc.
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报道了一种LD泵浦ND:YVO4晶体、腔内Ⅱ类相位匹配KTP和高转化率高偏振度连续输出的全固态激光器的设计和试验结果。
A LD-pumped Nd : YVO_4 , KTP ( type - ⅱ critical phase matching ) intracavity frequency doubling , high conversion efficiency and high polarization rate green laser at 532 nm is reported in this paper .
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回顾了全固态激光器的历史和发展,介绍了全固态紫外激光器的优点,总结了目前产生声光调Q全固态紫外激光器的重要途径及取得的最新进展。
The history and development of diode-pumped solid-state ultraviolet lasers are reviewed , the characteristics and various laser materials used in diode pumped solid-state ( DPSL ) are described , and the main approaches and new results of ultra-violet lasers with diode-pumped at present are summarized .
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半导体端面泵浦全固态激光器(DPSSL)具有效率高、光束质量好、结构紧凑等优点,已成为当今激光器领域研究的热点。
Laser-diode end-pumped solid-state laser ( DPSSL ) is focused on for its merits of high efficiency , high beam quality , compact structure and so on .
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激光技术经过五十年的发展已经广泛应用于科学、工业、国防等国民经济的各个方面,具有结构紧凑、使用寿命长、光束质量好等优点的LD泵浦全固态激光器更是得到了广泛的关注。
Laser technology has been widely used in science , industry , national defense and other aspects of the national economy and LD end-pumped solid state lasers with a compact configuration , long life and good beam quality have been widespread concerned .
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激光晶体是全固态激光器(DPSL)中最重要的核心部分,在很大程度上它决定了激光器的输出特性。
Laser crystal is the core of diode-pumped all-solid-state lasers , which decide the output characteristics of laser .
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全固态激光器(DPSSL)与传统的灯泵激光器相比具有效率高、稳定性好、结构紧凑、小型化、长寿命等优点,是新一代固体激光器件。
Diode-pumped all-solid-state lasers ( DPSSL ) have more advantages than traditional lamp-pumped laser , such as high efficiency , compactness , high stability , and long lifetime .
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随着大功率LD输出功率不断提高,新型激光晶体、非线性晶体以及使用准相位匹配方式的光学超晶格材料的不断研究开发、频率变换技术的日臻成熟,全固态激光器成为激光器的主流发展方向。
With the development of high power laser diode , new laser crystals , nonlinear optical crystals , optical superlattice with quasi-phase-match and the maturation of optical frequency conversion technology all-solid-state laser has become a central of focus in the field of laser .
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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 .
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为了提高半导体激光器抽运的全固态激光器的输出功率与光-光转换效率,设计并使用了双端抽运双Nd∶YVO4绿光激光器。
In order to improve the output power and the optical-optical conversion efficiency of a laser diode pumped all-solid-state laser , a double Nd ∶ YVO_4 crystals green laser was designed .
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基于掺镱(Yb)晶体的全固态激光器,由于其能够由半导体激光器直接泵浦,在1微米波段获得高功率、大能量和超短脉冲激光输出,近年来获得了研究人员的广泛关注。
All-solid-state lasers based on ytterbium-doped crystals , have attracted great attention recently , because they can be pumped directly by laser diodes ( LD ), and generate laser pulses at the wavelength of 1 micron with high power , large energy and ultrashort duration .