High power laser diode array is mainly used as the pumping energy source for solid state laser.
大功率激光器阵列的重要应用是泵浦固体激光器。
Instead of laser Diode Array, we adopted the parallel connection of lower output semiconductor laser to realize it.
与采用列阵结构来实现更大功率的输出不同。
A high efficient coupling system, hollow duct applied to planar laser diode array (LDA) was investigated systemically.
对高效的用于面阵激光二极管阵列(LDA)的光学耦合系统—空心导管进行了系统地研究。
The forward characteristics failure of the high power laser diode array severely influences the yield and reliability of devices.
大功率激光二极管阵列的正向特性失效问题严重影响器件的成品率和可靠性。
Based on computer, laser modulation, fiber coupling and microlens focusing technology, fiber coupled laser diode array is researched.
采用计算机控制技术、激光器调制技术、光纤耦合技术、微透镜聚焦技术,研究了半导体激光器的线阵。
There is the need for high duty-cycle laser diode array to satisfy the demand the DPSSL (diode pumping solid state laser) technology.
要满足当前的泵浦要求,高占空比大功率激光器阵列是必需的泵浦源。
After analyzing all the factors which determine gain of a laser diode array (LDA) pumped Nd glass rod amplifier, the optimum parameters are presented.
对影响激光二极管阵列(LDA)抽运钕玻璃棒状放大器增益的各因素进行分析,确立了放大器的优化参量。
Based on this analysis we have designed two type lens ducts and the coupling efficiency as high as 84% with quasi CW laser diode array was obtained for ar uncoated lens duct.
基于这种分析,我们设计了两种结构的透镜导管,用激光二极管阵列实验测得未镀抗反膜的透镜导管的耦合效率高达84%。
Collimation orthopedics of the array laser diode light beam is a traditional optical technical problem.
阵列激光二极管光束的高效准直整形是传统光学技术的难题。
This paper describes a new mono-frequency laser interferometer using a self-scanning photoelectric diode array (SSPDA) as the receiving device of laser interference fringes.
本文介绍一种采用自扫描光电二极管列阵(SSPDA)作为激光干涉条纹接收器的新型单频激光干涉仪。
It USES a laser diode as light source and a linear photodiode array to record the light-scattering band, which correlated to the surface roughness.
它利用半导体激光器为光源,光电二极管阵列接收与表面粗糙度具有对应关系的散射光带。
In addition, we use control transistor to be the power componnent, a kind of kilowatt continuous laser diode planar array, the power supply is studied and created out.
这种电源功率大、恒流工作、稳压调节、恒流与稳压之间自动切换。
An optimum laser diode (LD) array coolant temperature is chosen in an attempt to realize the weak but uniform pump absorption.
实验中我们选定了最佳的泵浦源冷却温度以实现较弱但更加均匀的泵浦吸收分布。
The pump beam from the diode laser array was launched into the planar waveguide from the end facet at a particular angle.
抽运源经过慢轴缩束快轴聚焦后,以特定的角度倾斜抽运平面波导介质。
The pump beam from the diode laser array was launched into the planar waveguide from the end facet at a particular angle.
抽运源经过慢轴缩束快轴聚焦后,以特定的角度倾斜抽运平面波导介质。
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