电子回旋共振与碰撞型同轴等离子体源的实验比较

J. Lo, A. Kaiz, L. Therese, B. Caillier, P. Guillot, L. Latrasse
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引用次数: 0

摘要

用于表面处理的大规模工业过程需要均匀、致密和静止的等离子体。实现这一目标的策略之一是分布几个微波应用器,形成一个2D或3D网络配置1,这使得等离子体密度超过由$n_{c}=\omega _{0}^{2}m_{e}\varepsilon _{0}/e^{2}$定义的临界密度$n_{c}$,其中$\omega _{0}$是微波角频率,$\varepsilon _{0}$是真空介电常数,$m_{e}$是电子质量。此外,集成不需要复杂匹配系统的微波应用器可以实现等离子体空间分布的微调,从而实现大面积均匀致密的等离子体2。
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Experimental Comparison of Electronic Cylotronic Resonance and Collisional Type Coaxial Plasmas Sources
Large scale industrial processes for surface treatment require uniform, dense, and quiescent plasma. One of the strategies in achieving this latter consists in distributing several microwave applicators forming a 2D or 3D network configuration 1, which permits plasma density exceeding the critical density $n_{c}$defined by $n_{c}=\omega _{0}^{2}m_{e}\varepsilon _{0}/e^{2}$with $\omega _{0}$the microwave angular frequency, $\varepsilon _{0}$the vacuum permittivity and $m_{e}$the mass of the electron. Furthermore, integrating microwave applicators designed without any need of complicated matching system proved to be interesting in order to achieve fine tuning of the plasma spatial distribution, hence uniform and dense plasma over large area 2.
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