等离子体转换系统中InGaAs/InP探测器的特点

Q3 Energy

Journal of Energy Systems Pub Date : 2022-12-31 DOI:10.30521/jes.1105215

H. Kurt, Selçuk Utaş

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引用次数: 0

摘要

利用InGaAs/InP探测器对浆细胞的特性进行了研究。探测器由InGaAs晶片和InP晶片组成。通过理论模拟分析计算了平均电子能、迁移电子通量和电流密度。结果有助于理解等离子体参数的不确定性，使等离子体结构更易于理解，从而可以通过COMSOL软件包求解复杂的等离子体反应。新的等离子体研究集中在均匀放电上。然而，为了解释具有不同放电机制的复杂介质中复杂的物理和化学特征，必须确定等离子体结构的优化。非热等离子体在微电子系统和表面加工(如蚀刻和净化)中尤为出名。

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The features of the InGaAs/InP detectors in plasma converter systems

The features of the plasma cell with the InGaAs/InP detector are explored. The detector is composed of InGaAs and InP wafers. Mean electron energies, migrative electron flux and current densities are evaluated by theoretical simulation analyses. The results helped to understand the uncertain plasma parameters and made the plasma structure more understandable, thereby, the complex plasma reactions can be solved via the COMSOL package. New plasma studies have focused on uniform discharges. However, the optimization of the plasma structure should be ascertained in order to explain the complex physical and chemical features in the complicated media having different discharge mechanisms. The non-thermal plasmas are famous especially for the microelectronic systems and surface processes such as etching and purification.

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来源期刊

Journal of Energy Systems Environmental Science-Management, Monitoring, Policy and Law

CiteScore

1.60

自引率

0.00%

发文量