Add to ORKGReliable applications of atmospheric-pressure glow discharges (APGDs) depend critically on their plasma stability. A common technique of ensuring APGD stability is to keep their operation well within their stability range by decreasing their discharge current. However, this reduces the achievable densities of the reactive plasma species and, thereby, compromises the application efficiency. In this letter, the use of high excitation frequencies in radio-frequency APGD is shown to substantially expand their stability range. It is also demonstrated that high-frequency operation introduces an added benefit of higher electron energy and greater electron density, thus enabling more abundant reactive plasma species and improved application efficie...
Building on recent experimental and numerical evidence of different glow modes in atmospheric plasma...
Large-volume and uniform atmospheric glow discharges are finding a vast range of processing applicat...
Time-resolved images of the light emission profiles of RF atmospheric pressure plasmas are presented...
This letter reports an experimental investigation of an atmospheric glow discharge in both the high-...
It is widely accepted that electrode insulation is unnecessary for generating radio-frequency (rf) a...
Fundamentally not requiring a vacuum chamber, atmospheric pressure glow discharges (APGDs) offer an ...
This paper reports the effects of introducing dielectric barriers to radio-frequency (RF) atmospheri...
It is known that radio-frequency (rf) atmospheric glow discharges with bare electrodes are susceptib...
Radio frequency (rf) atmospheric pressure glow discharges (APGDs) have received growing attention fo...
In this letter, the authors present an experimental study of the temporal characteristics of submicr...
In this letter, the authors present experimental evidence of electron trapping in radio-frequency r...
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...
This paper presents images of dynamic sheath evolution in a radio-frequency atmospheric pressure glo...
In this letter, basic characteristics of glow modes and their mode transition are studied for radio-...
Building on recent experimental and numerical evidence of different glow modes in atmospheric plasma...
Large-volume and uniform atmospheric glow discharges are finding a vast range of processing applicat...
Time-resolved images of the light emission profiles of RF atmospheric pressure plasmas are presented...
This letter reports an experimental investigation of an atmospheric glow discharge in both the high-...
It is widely accepted that electrode insulation is unnecessary for generating radio-frequency (rf) a...
Fundamentally not requiring a vacuum chamber, atmospheric pressure glow discharges (APGDs) offer an ...
This paper reports the effects of introducing dielectric barriers to radio-frequency (RF) atmospheri...
It is known that radio-frequency (rf) atmospheric glow discharges with bare electrodes are susceptib...
Radio frequency (rf) atmospheric pressure glow discharges (APGDs) have received growing attention fo...
In this letter, the authors present an experimental study of the temporal characteristics of submicr...
In this letter, the authors present experimental evidence of electron trapping in radio-frequency r...
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...
This paper presents images of dynamic sheath evolution in a radio-frequency atmospheric pressure glo...
In this letter, basic characteristics of glow modes and their mode transition are studied for radio-...
Building on recent experimental and numerical evidence of different glow modes in atmospheric plasma...
Large-volume and uniform atmospheric glow discharges are finding a vast range of processing applicat...
Time-resolved images of the light emission profiles of RF atmospheric pressure plasmas are presented...