随着高功率和超短脉冲激光器的出现,多光子吸收技术已近成为研究材料物理特性的一种有效方法。
With the development of high peak power and ultrashort-pulsed lasers, multi-photon techniques have become an important tool for investigation of physical properties of materials.
高功率快脉冲技术在核物理技术、电子束、加速器、激光、HPM现代科学技术领域都有广泛的应用。
Pulse power with fast rise time technology was applied in many fields such as nuclear physics, electron beam, accelerator, laser, HPM etc.
为研究高功率电磁脉冲的测量技术,提出一种应用标准增益喇叭天线和宽带数字示波器进行电磁脉冲辐射电场测量的方法。
In order to study the measurement technique of high power electromagnetic pulse, standard gain horn and wideband digital oscilloscope are adopted to measure the electromagnetic pulse waveform.
目前,国外高功率激光驱动器实现远场分布平滑化的主流技术是基于正弦调频脉冲的光谱色散平滑技术(SSD)。
Nowadays, the mainstream of far field beam smoothing technology adopted by foreign high power laser drivers is smoothing by spectral dispersion (SSD) based upon sinusoidal frequency modulation.
啁啾脉冲放大(CPA)作为获得高功率飞秒激光脉冲的关键技术日益成熟。
The technique of chirped pulse amplification (CPA) has become the important method to get high power of femtosecond laser pulse.
在电热、电磁发射技术中,高功率脉冲电源占据着非常重要的位置,开关是高功率脉冲电源的重要组成部分。
In the electrothermal chemical and electromagnetic launch technology, the high power pulsed sources occupy a very important place.
然后运用脉冲功率技术,通过由电容器和磁开关等组成的脉冲陡化电路对正弦电压波形进行改形,最后输出纳秒级上升前沿、高重复频率的高压脉冲。
Then, transform it through the pulse sharpening circuit consisting mainly of capacitances and magnetic switches, finally outputting the high voltage and high repetition rate nanosecond pulses.
高功率微波(HPM)技术是上世纪70年代以来产生的一门新兴学科,是脉冲功率技术与等离子体物理学及电真空技术相结合的产物。
The High Power Microwave (HPM) technology as a combination of pulse power technology, plasma physics and vacuum electron device is a rising science in the 1970s.
高功率微波(HPM)技术是上世纪70年代以来产生的一门新兴学科,是脉冲功率技术与等离子体物理学及电真空技术相结合的产物。
The High Power Microwave (HPM) technology as a combination of pulse power technology, plasma physics and vacuum electron device is a rising science in the 1970s.
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