近年来实验研究发现,等离子体加载高功率微波器件后,器件的输出功率和互作用效率得到显著的提高。
In recent years, experiments show that in the plasma loaded high power microwave device may obtain much higher interaction efficiency and output power than the ones absence of plasma.
结合等离子体技术的新型微波器件,其性能可以获得巨大改善。
Novel microwave devices with plasma technologies have a great advance in performance.
最近的一系列的实验研究表明,在大功率微波器件中填充等离子体可以大大增强其电子束与波的互作用效率,提高功率输出的水平;
Recently, much attention has been made on the study of plasma-filled high-power microwave devices for the enhancement of efficiency and output power.
近年来研究发现,当在微波器件中填充了等离子体后,器件的输出功率和互作用效率得到显著提高,同时等离子体还可改善电子注的传输质量。
It is researched and discovered that filling plasma into microwave instrument may increase it's output power and interaction efficiency and improve transmission quantity of electronic beam.
在介质切伦可夫脉塞中加入背景等离子体可有效地提高器件的效率和微波输出功率。
The use of a background plasma in a dielectric Cherenkov maser can effectively increase the efficiency and the microwave power output of the device.
等离子体加载微波器件能显著地改善带宽、效率和功率等综合性能,并且可以降低或省去外部聚焦磁场。
In the case of the plasma-filling, the frequency bandwidth, the overall efficiency and the gain can be improved significantly, and meanwhile the guiding magnetic fields can be reduced or eliminated.
等离子体加载微波器件能显著地改善带宽、效率和功率等综合性能,并且可以降低或省去外部聚焦磁场。
In the case of the plasma-filling, the frequency bandwidth, the overall efficiency and the gain can be improved significantly, and meanwhile the guiding magnetic fields can be reduced or eliminated.
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