Title :
Gas Heating and Transition to Obstructed Mode in DC Glow Microdischarge in Air
Author :
Demidov, Evgenii ; Eliseev, Stepan ; Bogdanov, Evgeny A. ; Kudryavtsev, Anatoly
Author_Institution :
Univ. ITMO, St. Petersburg, Russia
Abstract :
Microdischarges have been the subject of numerous studies in the past decade. Numerical modeling has become a powerful tool to complement to the scarce experimental data on microdischarges, as their small size poses a great number of difficulties in implementing traditional experimental techniques. It has been shown that in atmospheric air discharges, gas heating becomes an important factor, greatly influencing plasma parameters and leading to transition from normal glow discharge to obstructed mode with abruptly growing current-voltage characteristic. Presented images of electron density distributions and volt-ampere characteristics confirm this interesting phenomenon.
Keywords :
air; glow discharges; numerical analysis; plasma density; plasma heating; plasma instability; plasma simulation; plasma transport processes; DC glow microdischarge; atmospheric air discharges; current-voltage characteristic; electron density distributions; gas heating; gas transition; numerical modeling; obstructed mode; plasma parameters; volt-ampere characteristics; Atmospheric modeling; Discharges (electric); Equations; Heating; Mathematical model; Numerical models; Plasma temperature; Atmospheric-pressure plasmas; glow discharge devices; plasma simulation; plasma temperature; plasma temperature.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2323709
