Title :
Probing the Plasma Sheath by the Continuous Mass Loss of Microparticles
Author :
Carstensen, J. ; Haase, Frerk ; Jung, H. ; Tadsen, B. ; Groth, S. ; Greiner, F. ; Piel, Alexander
Author_Institution :
Inst. fur Exp. und Angewandte Phys., Christian-Albrechts-Univ. zu Kiel, Kiel, Germany
Abstract :
A novel approach of using microparticles as probes for the sheath structure of radio-frequency discharges is presented. Starting with a heavy (large) particle confined deep in the plasma sheath, the ambient plasma causes a continuous mass loss, which increases the levitation height of the particle. It is shown that this process can be precisely monitored with the phase-resolved resonance method, which allows probing the force balance of the particle with high spatial resolution. The resulting force profile is in reasonable agreement with recent sheath models.
Keywords :
discharges (electric); dusty plasmas; plasma confinement; plasma probes; plasma sheaths; continuous mass loss; dust particle; heavy particle deep confinement; microparticles; particle levitation height; phase-resolved resonance method; plasma probes; plasma sheath structure; radio-frequency discharges; resulting force profile; spatial resolution; Atmospheric measurements; Friction; Levitation; Particle measurements; Plasma measurements; Plasma sheaths; Complex plasma; Epstein friction; diagnostic; dusty plasma; plasma sheath;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2012.2224330
