Add to ORKGIt is known that radio-frequency (rf) atmospheric glow discharges with bare electrodes are susceptible to plasma constriction at large discharge currents. This is undesirable for large-scale applications, even though large currents usually lead to abundant plasma reactive species and high application efficiency. In this letter, an experimental investigation is presented to demonstrate that plasma constriction can be mitigated by introducing dielectric barriers to the electrodes. The resulting atmospheric rf dielectric-barrier discharge is shown to operate in the γ mode of large discharge current while maintaining its discharge volume. This improves significantly plasma stability and the application potential
Cold atmospheric-pressure plasmas have recently become subject of great interest for a wide variety ...
Dielectric barrier discharge is vulnerable to ion bombardment, radical species or ultraviolet radiat...
In this work we study the effect of the dielectric barrier discharge (DBDs) on capacitively coupled ...
It is widely accepted that electrode insulation is unnecessary for generating radio-frequency (rf) a...
This paper reports the effects of introducing dielectric barriers to radio-frequency (RF) atmospheri...
In this letter, an experimental investigation is presented to characterize the properties and benefi...
It is widely believed that, at low frequencies of 1–100 kHz, the generation of atmospheric pressure...
In this letter, basic characteristics of glow modes and their mode transition are studied for radio-...
Reliable applications of atmospheric-pressure glow discharges (APGDs) depend critically on their pla...
We report observation of nonthermal atmospheric discharges produced between two bare metallic electr...
This letter reports a novel approach to improve the uniformity of atmospheric-pressure dielectric ba...
This letter reports an experimental investigation of an atmospheric glow discharge in both the high-...
Fundamentally not requiring a vacuum chamber, atmospheric pressure glow discharges (APGDs) offer an ...
Nonequilibrium, atmospheric pressure discharges are rapidly becoming an important technological comp...
In this letter, the authors present experimental evidence of electron trapping in radio-frequency r...
Cold atmospheric-pressure plasmas have recently become subject of great interest for a wide variety ...
Dielectric barrier discharge is vulnerable to ion bombardment, radical species or ultraviolet radiat...
In this work we study the effect of the dielectric barrier discharge (DBDs) on capacitively coupled ...
It is widely accepted that electrode insulation is unnecessary for generating radio-frequency (rf) a...
This paper reports the effects of introducing dielectric barriers to radio-frequency (RF) atmospheri...
In this letter, an experimental investigation is presented to characterize the properties and benefi...
It is widely believed that, at low frequencies of 1–100 kHz, the generation of atmospheric pressure...
In this letter, basic characteristics of glow modes and their mode transition are studied for radio-...
Reliable applications of atmospheric-pressure glow discharges (APGDs) depend critically on their pla...
We report observation of nonthermal atmospheric discharges produced between two bare metallic electr...
This letter reports a novel approach to improve the uniformity of atmospheric-pressure dielectric ba...
This letter reports an experimental investigation of an atmospheric glow discharge in both the high-...
Fundamentally not requiring a vacuum chamber, atmospheric pressure glow discharges (APGDs) offer an ...
Nonequilibrium, atmospheric pressure discharges are rapidly becoming an important technological comp...
In this letter, the authors present experimental evidence of electron trapping in radio-frequency r...
Cold atmospheric-pressure plasmas have recently become subject of great interest for a wide variety ...
Dielectric barrier discharge is vulnerable to ion bombardment, radical species or ultraviolet radiat...
In this work we study the effect of the dielectric barrier discharge (DBDs) on capacitively coupled ...