D. Yarmolich, Vladislav Vekselman, H. Sagi, V. Gurovich, Y. Krasik
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引用次数: 12
摘要
本文研究了在慢升快降驱动脉冲作用下钡钛基铁电样品的微粒子发射特性。研究发现,铁电体表面不完全放电的形成伴随着强烈的带正电微粒流的发射。在距离铁电样品前表面的不同距离上,以及在驱动脉冲快速下降的几个时间延迟下,利用电学和光学诊断方法研究了这种微粒流动(密度、速度分布、动量和平均微粒电荷)。结果表明,微粒子在6×10−15℃左右带正电;它们的平均尺寸约为5 μm,密度约为7×104 cm−2,平均速度约为6×103 cm s−2。讨论了这些微粒的形成机理以及微粒流作为小型推进器推进剂的应用。
Microparticle flow generation by a ferroelectric plasma source
The paper presents the experimental results of the investigation of microparticle emission from a Ba–Ti-based ferroelectric sample subjected to a driving pulse with a slow rise time and a fast fall time. It was found that the formation of incomplete discharges on the surface of the ferroelectric is accompanied by the emission of an intense positively charged microparticle flow. This microparticle flow (density, velocity distribution, momentum and average microparticle charge) was studied using electrical and optical diagnostics at different distances from the front surface of the ferroelectric sample and at several time delays with respect to the fast fall of the driving pulse. It was shown that microparticles are positively charged at about 6×10−15 C; they have an average size of about 5 μm, a density of about 7×104 cm−2 and an average velocity of about 6×103 cm s−2. The mechanism of the formation of these microparticles and the application of microparticle flows as a propellant for a small thruster are discussed.
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