Add to ORKGWe report on intricate dynamics observed in atmospheric-pressure rf electronegative discharges where electrons and anions are separated due to their different mobilities. This results in the formation of positively charged regions between an electronegative plasma core and an oscillating electron ensemble. It is found that for a given input power, the electron, ion (both positive and negative) and neutral fluxes increase as the gap size is reduced, resulting in a more efficient delivery of chemical species to a treated target
MasterParticle-in-cell/Monte Carlo simulations and numerical analysis of a single particle motion ar...
Charging of micron-size particulates, often appearing in fluorocarbon plasma etching experiments, is...
International audienceion energy distribution functions (IEDF) are investigated in electronegative c...
The kinetic study of three radio-frequency atmospheric-pressure helium microdischarges indicates tha...
Stratification of negatively charged species in electronegative discharges is a well-known phenomeno...
Several types of double-layer structures have been reported previously in the literature and the str...
DoctorIn this dissertation, three kinds of electron kinetics of atmospheric-pressure microplasmas ha...
A comparative study of electron kinetics between single-frequency (SF) microplasmas and their equiva...
The electron heating mode transition induced by ultra-high frequency in atmospheric-pressure micropl...
A radio-frequency (rf) atmospheric-pressure discharge in He–O2 mixture is studied using a fluid mode...
The comparison between fluid and particle-in-cell simulation results in different nonthermal helium ...
High-pressure plasmas with large Coulomb coupling constant are an interesting state of matter where ...
We compute the flux of positive ions exiting a low-pressure, planar, electronegative discharge as a ...
Dynamics of atmospheric pressure He/H2O microplasmas: a new double layer structur
High-pressure plasmas are an interesting state of matter where transport phenomena occur among multi...
MasterParticle-in-cell/Monte Carlo simulations and numerical analysis of a single particle motion ar...
Charging of micron-size particulates, often appearing in fluorocarbon plasma etching experiments, is...
International audienceion energy distribution functions (IEDF) are investigated in electronegative c...
The kinetic study of three radio-frequency atmospheric-pressure helium microdischarges indicates tha...
Stratification of negatively charged species in electronegative discharges is a well-known phenomeno...
Several types of double-layer structures have been reported previously in the literature and the str...
DoctorIn this dissertation, three kinds of electron kinetics of atmospheric-pressure microplasmas ha...
A comparative study of electron kinetics between single-frequency (SF) microplasmas and their equiva...
The electron heating mode transition induced by ultra-high frequency in atmospheric-pressure micropl...
A radio-frequency (rf) atmospheric-pressure discharge in He–O2 mixture is studied using a fluid mode...
The comparison between fluid and particle-in-cell simulation results in different nonthermal helium ...
High-pressure plasmas with large Coulomb coupling constant are an interesting state of matter where ...
We compute the flux of positive ions exiting a low-pressure, planar, electronegative discharge as a ...
Dynamics of atmospheric pressure He/H2O microplasmas: a new double layer structur
High-pressure plasmas are an interesting state of matter where transport phenomena occur among multi...
MasterParticle-in-cell/Monte Carlo simulations and numerical analysis of a single particle motion ar...
Charging of micron-size particulates, often appearing in fluorocarbon plasma etching experiments, is...
International audienceion energy distribution functions (IEDF) are investigated in electronegative c...