Title :
Observation of Plasma Bullet Propagation in Atmospheric-Pressure Dielectric Barrier Discharge With Coaxial Electrode
Author :
Ok, Jung-Woo ; Won, Mi-Sook ; Kim, Dong-Hyun ; Lee, Hae June ; Lee, Ho-Jun
Author_Institution :
Busan Center, Korea Basic Sci. Inst., Busan, South Korea
Abstract :
Ionization channel formation is observed in an atmospheric-pressure plasma jet. A radial electric field is applied between coaxial electrodes. Helium flows in the axial direction through an inner metal tube electrode. In this device configuration, time-resolved images show that a plasma bullet can propagate only when the inner electrode is an anode. This phenomenon is experimental evidence that the bullet head is a positive space charge region. Moreover, it supports the hypothesis that the mechanism of bullet propagation is similar to that of a positive streamer. A comet-tail-like feature appears during the bullet propagation. This interesting shape occurs probably because of the Penning ionization near the helium-air boundary.
Keywords :
Penning discharges; air; helium; ionisation; plasma devices; plasma diagnostics; plasma jets; plasma transport processes; space charge; He; Penning ionization; atmospheric-pressure dielectric barrier discharge; atmospheric-pressure plasma jet; coaxial electrode; comet-tail-like feature; helium flow process; helium-air boundary; inner metal tube electrode; ionization channel formation; plasma bullet propagation mechanism; positive space charge region; pressure 1 atm; radial electric field; time-resolved image; Anodes; Discharges; Electron tubes; Helium; Plasmas; Space charge; Atmospheric pressure plasma jet (APPJ); dielectric barrier discharge (DBD); intensified charge coupled device (ICCD);
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2161493
