Title :
Complex Electron Heating in Capacitive Multi-Frequency Plasmas
Author :
Schulze, J. ; Schüngel, Edmund ; Derzsi, A. ; Korolov, I. ; Mussenbrock, Thomas ; DonkoÌ, ZoltaÌn
Author_Institution :
Dept. of Phys., West Virginia Univ., Morgantown, WV, USA
Abstract :
Complex spatio-temporal electron heating dynamics are observed in kinetic simulations of geometrically symmetric low-pressure capacitive argon plasmas driven by multiple consecutive harmonics of 13.56 MHz. These dynamics are caused by an electrically induced asymmetry that leads to the self-excitation of plasma series resonance oscillations of the current. Such oscillations cause a nonsinusoidal movement of the boundary sheath edges and multiple phases of fast sheath expansions. These expansion phases lead to the generation of negative space charges that propagate into the bulk, where they affect the heating rate significantly and relax quickly.
Keywords :
argon; plasma kinetic theory; plasma radiofrequency heating; plasma sheaths; plasma simulation; space charge; spatiotemporal phenomena; Ar; boundary sheath edges; capacitive multifrequency plasmas; complex spatiotemporal electron heating dynamics; electrically induced asymmetry; frequency 13.56 MHz; geometrically symmetric low-pressure capacitive argon plasmas; heating rate; kinetic simulations; plasma series resonance oscillations; sheath expansions; space charges; Electrodes; Harmonic analysis; Heating; Oscillators; Plasmas; Radio frequency; Space charge; Plasma sheaths; plasma simulation; plasma sources; plasmas; plasmas.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2306265
