大口径KDP电光开关是新一代高功率激光器多程放大系统的关键部件。
The large aperture KDP electro-optical switch is a key unit for the new high-power laser multi-pass amplification system.
介绍了紧缩型等离子体电极电光开关特性,以及在多程放大系统中的应用。
In this paper, the performance of the compact PEPC electron-optical switch and its application in multipass amplification system are described in detail.
用条纹相机测量比较了雪崩晶体管和弧光放电充气管电光开关所给出的削波波形。
The chopped waveshapes of an avalanche transistor and krytron electrooptics gates are compared by streak camera measurement.
根据单脉冲过程电光开关气体放电的微观物理过程,提出了氦气放电的一维数值模型。
A one-dimensional numerical model for analyzing helium discharging of electro-optic switch driven by single-pulse process is proposed based on its microscopic physical mechanism.
为了隔离后向反射激光以及激光器多程放大系统中的寄生振荡,需要研制一种大口径的电光开关。
To isolate the retroreflections from the target and the self-oscillation in multipass amplifier system, the large-aperture electro-optical switch is required.
简写KH2PO4晶体作为一种优质的非线性光学材料目前广泛应用于激光频率转换器的电光开关中。
KDP (Potassium Dihydrogen Phosphate, it is shorting KH2PO4) crystal is a non-linear optical material used for laser frequency conversion and electrooptic modulators.
减小单脉冲等离子体电极普克尔盒电光开关击穿时间延迟与抖动问题是提高大口径电光开关性能的关键。
The breakdown time delay and jitter are very important for the plasma-electrode Pockels cells(PEPC) electro-optic switch driven by one-pulse process.
采用同一电光器件对发射和接收光束同时开关的原理,提出了一种新颖的激光测距方法。
By simultaneous switching of transmitting and receiving beams in an electro-optical device, a novel laser ranging method is proposed.
设计了新型的光开关器件,该器件建立在掺杂电光材料的一维光子晶体上。
The switch bases on one-dimensional photonic crystal doped by electro-optical material.
数值模拟显示:电光系数随温度变化和应力双折射是引起开关退偏损耗的主要因素。
The simulated results indicate: variation of electro-optic coefficient as well as stress birefringence is the main factor, which induces depolarized loss of the switch.
数值模拟显示:电光系数随温度变化和应力双折射是引起开关退偏损耗的主要因素。
The simulated results indicate: variation of electro-optic coefficient as well as stress birefringence is the main factor, which induces depolarized loss of the switch.
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