Electron kinetics in radio-frequency atmospheric-pressure microplasmas
journal contribution
posted on 2008-02-25, 12:13authored byFelipe Iza, Jae Koo Lee, Michael G. Kong
The kinetic study of three radio-frequency atmospheric-pressure helium microdischarges indicates that
the electron energy probability function is far from equilibrium, and three electron groups with three
distinct temperatures are identified. The relative population of electrons in different energy regions is
strongly time modulated and differs significantly from values recently reported from fluid analyses. It is
also shown that a flux of energetic electrons (ε>5 eV) that comprises up to 50% of the total electron flux
can reach the electrodes. This energetic electron flux provides a new means of delivering energy to the
electrodes and tuning the surface chemistry in atmospheric-pressure discharges. The three electron groups
and the engineering of an energetic electron flux might open up a new paradigm in plasma-surface
chemistry that has not been considered up until now.
History
School
Mechanical, Electrical and Manufacturing Engineering
Citation
IZA, F., LEE, J.K. and KONG, M.G., 2007. Electron kinetics in radio-frequency atmospheric-pressure microplasmas. Physical Review Letters, 99, 075004