Title :
Pre- to Post-discharge Behavior in Saline Solution
Author :
Schaper, L. ; Kelsey, C.P. ; Ceccato, P. ; Rousseau, A. ; Stalder, K.R. ; Graham, W.G.
Author_Institution :
Centre for Plasma Phys., Queen´´s Univ. Belfast, Belfast, UK
Abstract :
The development of a plasma discharge at low voltage (200-600 V) in saline solution is characterized using fast and standard CCD camera imaging. Vapor formation, plasma formation, and vapor collapse and subsequent pressure wave propagation are observed. If, with increasing voltage, the total energy deposited is kept approximately constant, the sequence and nature of events are similar but develop faster and more reproducibly at the higher voltages. This is attributed to the slower temporal evolution of the vapor layer at lower voltages which means a greater sensitivity to hydrodynamic instabilities at the vapor-liquid interface.
Keywords :
CCD image sensors; discharges (electric); plasma diagnostics; plasma flow; plasma instability; CCD camera imaging; hydrodynamic instabilities; plasma discharge; plasma formation; post discharge behavior; predischarge behavior; pressure wave propagation; saline solution; vapor collapse; vapor formation; vapor-liquid interface; voltage 200 V to 600 V; Discharges; Electrodes; Face; Imaging; Logic gates; Plasmas; Production; Atmospheric-pressure plasmas; plasma applications; plasma devices; plasma simulation; plasma stability; plasmas;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2162856
