负离子浓度和磁场对电负性等离子体鞘层的影响

R. Chalise, Bhujendra Nepali, G. Thakur, S. Basnet, R. Khanal
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引用次数: 1

摘要

等离子体是物质的电离状态,在许多领域都有应用,因此引起了人们的兴趣。在等离子体的所有实际应用中,它通过在大块等离子体和表面之间形成的非中性区域(称为鞘层)与材料表面相互作用,这对等离子体的整体性能起着至关重要的作用。本文采用基于动力学理论的动力学轨迹模拟方法,研究了电负性磁化等离子体鞘层的特性。研究发现,磁场和负电荷粒子的体积组成对电负性等离子体鞘层的特性有显著影响。虽然粒子密度向壁面逐渐减少,但负电荷粒子的下降速度比正离子的下降速度要快。电场强度在靠近鞘层入口处缓慢增大,而在靠近鞘壁处急剧增大。当负离子浓度增大或磁场增大时,正离子密度减小。当磁场从0增加到250 mT时,到达壁的离子密度从0.331减小到0.305 n ps,所得结果与采用不同模型的同类研究结果基本一致,为电负性等离子体鞘层的研究提供了满意的依据。
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Effect of Negative Ion Concentration and Magnetic Field on Electronegative Plasma Sheath
Plasma is the ionized state of matter and is of interest as it has found applications in diverse fields. In all practical applications of plasma, it interacts with the material surface via non-neutral region that is formed between bulk plasma and surface known as the sheath, which plays a vital role in overall plasma properties. In this work, the characteristics of electronegative magnetized plasma sheath have been presented employing the kinetic trajectory simulation method based on kinetic theory. It is found that magnetic field and volumetric composition of negatively charged particles have significantly affected the characteristics of electronegative plasma sheath. Although the particle densities deplete towards the wall, the decreasing rate of negative charged particles is steeper than that of positive ions. The magnitude of electric field slowly increases close to the sheath entrance, whereas it sharply increases close to the wall. The positive ion density decreases in both cases when the concentration of negative ion is increased or when the magnetic field is increased. On increasing the magnetic field from 0 to 250 mT, the ion density reaching the wall decreases from 0.331 to 0.305 n ps. The results are similar and agree with similar works following different models and our model provides a satisfactory basis for the study of electronegative plasma sheath.
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