Title :
A cold thermionically emitting dusty air plasma formed by radiative heating of graphite particulates
Author :
Lilly, Jared L. ; Subramanian, V.V.
Author_Institution :
Center for Adv. Plasma Eng., Ohio State Univ., Columbus, OH, USA
fDate :
12/1/2001 12:00:00 AM
Abstract :
Formation of an atmospheric pressure dusty air plasma is explored experimentally in this paper. The plasma is created by seeding an air flow with graphite particles and irradiating the particulates with a focused CO2 laser beam. The graphite particles are, thus, heated to thermionically emitting temperatures, and average particle temperatures and average particle number densities are measured. The presence of charges is inferred both from these measured quantities using a simple theoretical transient model, and experimentally by applying a dc bias across the irradiated region. It is found that an electron density of ~6.7 × 105 cm-3 (6.7 × 1011 m-3) can be produced at steady state in the presence of O2. This value can be increased to 3.6 × 107 cm-3 (3.6 × 1013 m -1) in the ideal case where an electron attachment to O2 is suppressed and where a lower work function particulate is used
Keywords :
dusty plasmas; graphite; plasma density; plasma production by laser; plasma temperature; air flow; atmospheric pressure dusty air plasma; average particle number densities; average particle temperatures; cold thermionically emitting dusty air plasma; electron attachment; electron density; focused CO2 laser beam; graphite particulates; radiative heating; thermionically emitting temperatures; transient model; Atmospheric-pressure plasmas; Dusty plasma; Electrons; Laser beams; Laser modes; Laser theory; Particle beams; Plasma density; Plasma measurements; Plasma temperature;
Journal_Title :
Plasma Science, IEEE Transactions on
