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P: Fachverband Plasmaphysik

P 10: Niedertemperaturplasmen

P 10.4: Vortrag

Dienstag, 20. März 2007, 12:15–12:30, 6F

Space and phase resolved electron energy distribution functions in an industrial dual-frequency capacitively coupled radio-frequency discharge — •Julian Schulze1, Timo Gans2, Deborah O'Connell1, Uwe Czarnetzki1, Bert Ellingboe3, and Miles Turner31Institute for Plasma and Atomic Physics, Ruhr-University Bochum — 2Department of Physics and Astronomy, University Belfast — 3NCPST, Dublin City University

The excitation dynamics in a confined dual-frequency plane parallel CCRF discharge (Exelan, Lam Research Inc.), operated at 1.94 MHz and 27.12 MHz is investigated by phase resolved optical emission spectroscopy. The emission from different rare gas lines in a He-O2 plasma with small rare gas admixtures is measured during one low frequency RF-cycle resolving the dynamics within every high frequency cycle with one dimensional spatial resolution along the discharge axis. In a detailed analysis a time dependent model, based on rate equations, is developed, that describes the dynamics of the population density of excited levels. Electron impact excitation out of the ground state, quenching, reabsorption and cascades are taken into account. Based on this model and the comparison of the excitation of various rare gas states, with different excitation thresholds, time and space resolved electron temperature and propagation velocity of the high energetic, directed electrons are determined. These plasma parameters reveal the time and space resolved electron energy distribution function and qualitative density of the high energetic electrons. Funding from: Lam Research Inc., the EU (FP5), the DFG (SFB591 & GRK1051)

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DPG-Physik > DPG-Verhandlungen > 2007 > Düsseldorf