Add to ORKGThe gas and effective electron temperatures have been estimated for atmospheric microplasma by means of optical emission spectroscopy. The results have shown that the microplasma exhibits nonequilibrium and, as its size is reduced, the two temperatures depart from each other, enhancing the nonequilibrium characteristic. The effect of methane and oxygen concentrations has also been studied, showing that gas mixtures have an important effect on the microplasma state
Microplasmas refer to electric discharges created in very small geometries able to operate in DC mo...
Non-equilibrium microplasmas at atmospheric pressures have been investigated for active flow control...
Atmospheric pressure microplasmas are uniquely characterized by their very high energy densities and...
International audienceMicroplasmas are a sizable part of non-equilibrium non-thermal plasma sources....
The electrical gas discharge parameters of direct-current non-thermal microplasma jet in Ar-2%H2 flo...
Atmospheric-pressure diffuse discharge plasmas are susceptible to instabilities and, in particular, ...
The last decade has seen an immense amount of research exploring advanced nanofabrication technique...
Graduation date: 2016Access restricted, at author's request, from September 24, 2015 - September 24,...
A microplasma generated between a stainless-steel capillary and water surface in ambient air with fl...
Plasma technology has been widely applied in the ozone production, material modification, gas/water ...
DoctorIn this dissertation, three kinds of electron kinetics of atmospheric-pressure microplasmas ha...
The results of a particle-in-cell Monte Carlo collision (PIC-MCC) simulation of a direct current (dc...
An atmospheric-pressure air microplasma is ignited and sustained in a 25 µm wide discharge gap forme...
Microplasmas gained recognition as a distinct area of research within the larger field of plasma sci...
Optical emission spectroscopy measurements were performed with added trace probe gases in an atmosph...
Microplasmas refer to electric discharges created in very small geometries able to operate in DC mo...
Non-equilibrium microplasmas at atmospheric pressures have been investigated for active flow control...
Atmospheric pressure microplasmas are uniquely characterized by their very high energy densities and...
International audienceMicroplasmas are a sizable part of non-equilibrium non-thermal plasma sources....
The electrical gas discharge parameters of direct-current non-thermal microplasma jet in Ar-2%H2 flo...
Atmospheric-pressure diffuse discharge plasmas are susceptible to instabilities and, in particular, ...
The last decade has seen an immense amount of research exploring advanced nanofabrication technique...
Graduation date: 2016Access restricted, at author's request, from September 24, 2015 - September 24,...
A microplasma generated between a stainless-steel capillary and water surface in ambient air with fl...
Plasma technology has been widely applied in the ozone production, material modification, gas/water ...
DoctorIn this dissertation, three kinds of electron kinetics of atmospheric-pressure microplasmas ha...
The results of a particle-in-cell Monte Carlo collision (PIC-MCC) simulation of a direct current (dc...
An atmospheric-pressure air microplasma is ignited and sustained in a 25 µm wide discharge gap forme...
Microplasmas gained recognition as a distinct area of research within the larger field of plasma sci...
Optical emission spectroscopy measurements were performed with added trace probe gases in an atmosph...
Microplasmas refer to electric discharges created in very small geometries able to operate in DC mo...
Non-equilibrium microplasmas at atmospheric pressures have been investigated for active flow control...
Atmospheric pressure microplasmas are uniquely characterized by their very high energy densities and...