Add to ORKGLarge-volume atmospheric dielectric-barrier discharges (DBD) are particularly useful for processing applications when they operate in their homogeneous mode. A vast majority of their theoretical studies is currently based on the hydrodynamic treatment in which electrons are assumed to be in equilibrium with the local electric field. Recognizing that this assumption is incorrect in the sheath region, we report the development of an electron-hybrid model to treat electrons kinetically and all other particles hydrodynamically. Through numerical examples, it is shown that the mainstream hydrodynamic model underestimates gas ionization and discharge current. Using the hybrid model, it is demonstrated that variation in the amplitude of the applie...
It is widely believed that, at low frequencies of 1–100 kHz, the generation of atmospheric pressure...
The electron thermalization process is significant in nanosecond pulsed discharges due to the applie...
Summary form only given, as follows. We report our development of a further simplified theoretical t...
Atmospheric pressure glow discharges are attractive for a wide range of material-processing applicat...
This paper presents images of dynamic sheath evolution in a radio-frequency atmospheric pressure glo...
peer-reviewedThis paper outlines specific variations in recombination coefficients for charged parti...
This paper reports the effects of introducing dielectric barriers to radio-frequency (RF) atmospheri...
The atmospheric pressure dielectric barrier discharge in helium is a pulsed discharge in nature and ...
It is widely accepted that electrode insulation is unnecessary for generating radio-frequency (rf) a...
Numerical calculations of spatio-temporal characteristics of the homogeneous dielectric barrier dis...
We report observation of nonthermal atmospheric discharges produced between two bare metallic electr...
The application of nanosecond voltage pulses to weakly ionized atmospheric pressure plasmas allows h...
In this paper, a multi-stage numerical methodology for the description of the Dielectric Barrier Dis...
Building on recent experimental and numerical evidence of different glow modes in atmospheric plasma...
A one-dimensional drift-diffusion model is used to study atmospheric-pressure dual frequency (DF) di...
It is widely believed that, at low frequencies of 1–100 kHz, the generation of atmospheric pressure...
The electron thermalization process is significant in nanosecond pulsed discharges due to the applie...
Summary form only given, as follows. We report our development of a further simplified theoretical t...
Atmospheric pressure glow discharges are attractive for a wide range of material-processing applicat...
This paper presents images of dynamic sheath evolution in a radio-frequency atmospheric pressure glo...
peer-reviewedThis paper outlines specific variations in recombination coefficients for charged parti...
This paper reports the effects of introducing dielectric barriers to radio-frequency (RF) atmospheri...
The atmospheric pressure dielectric barrier discharge in helium is a pulsed discharge in nature and ...
It is widely accepted that electrode insulation is unnecessary for generating radio-frequency (rf) a...
Numerical calculations of spatio-temporal characteristics of the homogeneous dielectric barrier dis...
We report observation of nonthermal atmospheric discharges produced between two bare metallic electr...
The application of nanosecond voltage pulses to weakly ionized atmospheric pressure plasmas allows h...
In this paper, a multi-stage numerical methodology for the description of the Dielectric Barrier Dis...
Building on recent experimental and numerical evidence of different glow modes in atmospheric plasma...
A one-dimensional drift-diffusion model is used to study atmospheric-pressure dual frequency (DF) di...
It is widely believed that, at low frequencies of 1–100 kHz, the generation of atmospheric pressure...
The electron thermalization process is significant in nanosecond pulsed discharges due to the applie...
Summary form only given, as follows. We report our development of a further simplified theoretical t...