M. Klute¹, H.-E. Porteanu², I. Stefanovic³, W. Heinrich², P. Awakowicz³ and R.P. Brinkmann¹

Published in:

Plasma Sources Sci. Technol., vol. 29, no. 06, pp. 065018, doi:10.1088/1361-6595/ab9483 (2020).

Abstract:

Radio frequency driven plasma jets are compact plasma sources which are used in many advanced fields such as surface engineering or biomedicine. The MMWICP (miniature micro wave ICP) is a particular variant of that device class. Unlike other plasma jets which employ capacitive coupling, the MMWICP uses the induction principle. The jet is integrated into a miniature cavity structure which realizes an LC-resonator with a high quality factor. When excited at its resonance frequency, the resonator develops a high internal current which - transferred to the plasma via induction - provides an efficient source of RF power. This work presents a theoretical model of the MMWICP. The possible operation points of the device are analyzed. Two different regimes can be identified, the capacitive E-mode with a plasma density of η_e≈5×10¹⁷m^-3, and the inductive H-mode with densities of η_e≥10¹⁹m^-3. The E to H transition shows a pronounced hysteresis behavior.

Keywords:

plasma jet, inductively, microwave, miniature, ICP, RF

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