Add to ORKGThe 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 enginee...
DoctorCylindrical microhollow-cathode discharges with diameter D of 100 um are analyzed by two dimen...
The formation of secondary energetic electrons induced by an abnormal electron-heating mode in pulse...
Dynamics of atmospheric pressure He/H2O microplasmas: a new double layer structur
The kinetic study of three radio-frequency atmospheric-pressure helium microdischarges indicates tha...
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...
The results of a particle-in-cell Monte Carlo collision (PIC-MCC) simulation of a direct current (dc...
We report on intricate dynamics observed in atmospheric-pressure rf electronegative discharges where...
The comparison between fluid and particle-in-cell simulation results in different nonthermal helium ...
Space-, time- and wavelength-resolved optical emission profiles suggest that the helium emission at ...
Stratification of negatively charged species in electronegative discharges is a well-known phenomeno...
We carried out one-dimensional particle-in-cell and Monte Carlo collisional simulations of argon dc ...
The results of simulations using a fluid model and a PIC-MCC model are compared, and the PIC-MCC is ...
This work was supported by the Direction Générale de l'Armement.International audienceQuantification...
DoctorCylindrical microhollow-cathode discharges with diameter D of 100 um are analyzed by two dimen...
The formation of secondary energetic electrons induced by an abnormal electron-heating mode in pulse...
Dynamics of atmospheric pressure He/H2O microplasmas: a new double layer structur
The kinetic study of three radio-frequency atmospheric-pressure helium microdischarges indicates tha...
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...
The results of a particle-in-cell Monte Carlo collision (PIC-MCC) simulation of a direct current (dc...
We report on intricate dynamics observed in atmospheric-pressure rf electronegative discharges where...
The comparison between fluid and particle-in-cell simulation results in different nonthermal helium ...
Space-, time- and wavelength-resolved optical emission profiles suggest that the helium emission at ...
Stratification of negatively charged species in electronegative discharges is a well-known phenomeno...
We carried out one-dimensional particle-in-cell and Monte Carlo collisional simulations of argon dc ...
The results of simulations using a fluid model and a PIC-MCC model are compared, and the PIC-MCC is ...
This work was supported by the Direction Générale de l'Armement.International audienceQuantification...
DoctorCylindrical microhollow-cathode discharges with diameter D of 100 um are analyzed by two dimen...
The formation of secondary energetic electrons induced by an abnormal electron-heating mode in pulse...
Dynamics of atmospheric pressure He/H2O microplasmas: a new double layer structur