Title :
Plasma Ionization in Low-Pressure Radio-Frequency Discharges. Part I: Optical Measurements
Author :
Connell, Deborah O. ; Gans, Timo ; Meige, Albert ; Awakowicz, Peter ; Boswell, Rod W.
Author_Institution :
Centre for Plasma Phys., Queen´´s Univ. Belfast, Belfast
Abstract :
The electron dynamics in the low-pressure operation regime (<5 Pa) of a neon capacitively coupled plasma is investigated using phase-resolved optical emission spectroscopy. Plasma ionization and sustainment mechanisms are governed by the expanding and contracting sheath and complex wave-particle interactions. Electrons are energized through the advancing and retreating electric field of the RF sheath. The associated interaction of energetic sheath electrons with thermal bulk plasma electrons drives a two-stream instability also dissipating power in the plasma.
Keywords :
high-frequency discharges; neon; plasma instability; plasma sheaths; plasma thermodynamics; plasma-beam interactions; Ne; complex wave-particle interactions; dissipating power; electron dynamics; energetic sheath electron interaction; low-pressure radio-frequency discharges; neon capacitively coupled plasma; phase-resolved optical emission spectroscopy; plasma ionization; thermal bulk plasma electrons; two-stream instability; Electron emission; Electron optics; Ionization; Optical coupling; Plasma measurements; Plasma sheaths; Plasma waves; Radio frequency; Spectroscopy; Stimulated emission; Capacitively coupled plasmas; electric field reversal; phase resolved optical emission spectroscopy; plasma diagnostics; plasma ionization; radio-frequency plasmas; wave-particle interaction;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2008.927348
