The simulation results can guide the packaging of the high power semiconductor laser array.
该模拟结果对大功率半导体激光器阵列的封装设计具有现实的指导意义。
High power semiconductor lasers are widely used in communication, surgery, printing, laser manufacture and optical pump.
大功率半导体激光器在光通讯、医疗、印刷、激光制造和光泵浦等领域中有着广泛的应用前景。
The heat of high power semiconductor laser array is absorbed by a semiconductor refrigerator and dissipated by air cooling.
它利用半导体制冷器对大功率半导体激光阵列吸热,然后经由风冷散热。
The principle of temperature control of high power semiconductor laser for communication and the composition of laser module are described.
主要叙述通信用大功率半导体激光器温控原理及激光组件的构成。
It will be used in the illumination system of high power semiconductor laser over a long infrared distance of 100 meters through adjusting an additional geometric optical lens.
然后通过调节外加的几何光学透镜,在长达100米的红外远距离大功率半导体激光器照明系统中将得到利用。
Such a semiconductor laser can produce high power across a wide frequency.
这种半导体雷射可产生频率范围很广的高功率雷射。
It was pointed out that semiconductor laser has advantages such as high power, effective vaporization and simple usage than other types of lasers.
半导体激光器较之其他类型激光器有功率大、汽化效果好、操作简单等优点。
One of the key problems is lasers cooling in researching high power semiconductor diode laser arrays.
大功率半导体激光器列阵研制的关键问题之一就是散热技术。
The theory of side pumping Nd:YAG laser by high-power array-semiconductor laser cluster are discussed, on the basis of this theory, we design, make and justify the laser, and measure its data.
本文论述了大功率列阵半导体激光器组侧泵浦YAG激光器的工作原理,在此基础上进行设计、制作并对激光器进行调试和性能参数测量。
The holographic interferogram of the temperature field for an axisymmetrical high power semiconductor triode has been obtained by using laser holographic interferometric measurement.
采用激光全息干涉测量技术测量了轴对称型大功率晶体三极管温度场的全息干涉图;
A method for the high efficient power coupling of large emitting area pulsed semiconductor laser and standard communication fiber is given and its measured coupling efficiency is up to 21%.
给出一种实现大发光面脉冲半导体激光器与标准通信光纤的高效耦合方案,实测耦合效率达21%。
A method for the high efficient power coupling of large emitting area pulsed semiconductor laser and standard communication fiber is given and its measured coupling efficiency is up to 21%.
给出一种实现大发光面脉冲半导体激光器与标准通信光纤的高效耦合方案,实测耦合效率达21%。
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