阐述了短脉冲激光装置中脉冲前沿畸变效应的产生机理和可能的畸变源。
The principles of pulse-front distortion's production and its possible sources in a large-aperture short-pulse laser system are described.
该仪器是基于脉冲前沿抖动的MIL标准定义,采用了单片机技术进行控制和数据处理。
The measurment was based on the definition of MIL standard, The measurment control and data processing were realized by the single chip.
结果表明序列的各脉冲前沿存在斯托克斯光增益;在一定脉冲结构和光强下,介质记忆效应占主导地位。
The gain expression of the Stokes light pulse is given, our results show that the memory effect is very important in high gain region and the Stokes light exists in the lead edge of pulses.
另外本文通过分析MOSFET的内部结构,从MOSFET驱动原理上寻求了几种加快输出脉冲前沿的方法。
In addition, by analyzing the inside structure of MOSFET, three methods to quicken the pulse front edge are presented.
另外本文通过分析MOSFET的内部结构,从MOSFET驱动原理上寻求了几种加快输出脉冲前沿的方法。
In addition, by analyzing the inside structure of MOSFET, three methods to quicken the pulse front edge are presented.
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