脉冲线电流源的辐射问题是研究高功率微波辐射、传播和散射问题的基础。
The electromagnetic pulse radiation problem is the starting point for high power microwaves radiation, propagation and scattering.
通过理论分析和计算,设计一个高电压脉冲形成网络,用来得到高功率微波源需要的长脉冲电压方波。
In this paper, by theoretical analysis and numerical calculation, we design a high voltage pulse forming network, which can provide long duration voltage square wave for high power microwave sources.
要解决此问题,就必须深入探讨在高功率微波源中普遍存在的脉冲缩短现象,找到引发此现象产生的根源。
To resolve this problem, we must discuss deeply the phenomenon universally existing in the HPM sources, and find out the origin of the phenomenon.
电磁脉冲和高功率微波装置能够在相当大的面积上使各种各样军事和基础设施的电子设备失能,这对于分散目标也是有效的。
EMP and HPM devices can disable a large variety of military or infrastructure equipment over a relatively broad area. This can be useful for dispersed targets.
利用气体击穿获取窄脉冲微波是提高微波效应源性能的一种较为有效的辅助手段,其费效比较低,能够较好地为当前的高功率微波效应实验服务。
The basic conclusion is that it is an effective cheap method to obtain narrow microwave pulse through gas breakdown, and works well in HPM effect experiment.
电磁脉冲(EMP)和高功率微波(HPM)武器能以其瞬间功率骤增而对电子设备产生巨大的破坏力。
Electromagnetic Pulse (EMP) and High Powered Microwave (HMP) Weapons offer a significant capability against electronic equipment susceptible to damage by transient power surges.
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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