Add to ORKGIn this letter, an experimental study is presented to characterize a room-temperature plasma jet in atmospheric argon generated with submicrosecond voltage pulses at 4 kHz. Distinct from sinusoidally produced argon discharges that are prone to thermal runaway instabilities, the pulsed atmospheric argon plasma jet is stable and cold with an electron density 3.9 times greater than that in a comparable sinusoidal jet. Its optical emission is also much stronger. Electrical measurement suggests that the discharge event is preceded with a prebreakdown phase and its plasma stability is facilitated by the short voltage pulses
In this work, an atmospheric pressure plasma jet generated by AC voltage with 71 kHz frequency in Ar...
Plasma is gas ionized by energizing electrons through electric fields, leading to various collisiona...
Nonequilibrium plasmas driven by submicrosecond high voltage pulses have been proven to produce high...
Pulsed excitation of cold atmospheric plasmas is commonly believed to offer valuable benefits compar...
ABSTRACT: A megahertz-driven plasma jet at atmospheric pressure—the so-called micro-scaled atmospher...
Atmospheric pressure glow discharge is realized in argon by using a plasma needle. With increasing t...
In this letter, the authors present an experimental study of the temporal characteristics of submicr...
This thesis presents experimental studies of various non-thermal atmospheric pressure gas discharges...
International audienceArgon plasma jet is generated at atmospheric pressure under monopolar pulsed c...
Low-temperature, high-pressure plasma jets have an extensive use in medical and biological applicati...
In this letter, an experimental investigation is presented to characterize the properties and benefi...
In this work, we present an experimental and theoretical study of a low frequency, atmospheric plasm...
This study includes a detailed experimental investigation of the spatial and temporal spectroscopic ...
Non-thermal atmospheric pressure plasma jets attract a lot of attentions due to its growing interest...
The paper proposes a new atmospheric pressure plasma jet (APPJ) source for operation in air and nitr...
In this work, an atmospheric pressure plasma jet generated by AC voltage with 71 kHz frequency in Ar...
Plasma is gas ionized by energizing electrons through electric fields, leading to various collisiona...
Nonequilibrium plasmas driven by submicrosecond high voltage pulses have been proven to produce high...
Pulsed excitation of cold atmospheric plasmas is commonly believed to offer valuable benefits compar...
ABSTRACT: A megahertz-driven plasma jet at atmospheric pressure—the so-called micro-scaled atmospher...
Atmospheric pressure glow discharge is realized in argon by using a plasma needle. With increasing t...
In this letter, the authors present an experimental study of the temporal characteristics of submicr...
This thesis presents experimental studies of various non-thermal atmospheric pressure gas discharges...
International audienceArgon plasma jet is generated at atmospheric pressure under monopolar pulsed c...
Low-temperature, high-pressure plasma jets have an extensive use in medical and biological applicati...
In this letter, an experimental investigation is presented to characterize the properties and benefi...
In this work, we present an experimental and theoretical study of a low frequency, atmospheric plasm...
This study includes a detailed experimental investigation of the spatial and temporal spectroscopic ...
Non-thermal atmospheric pressure plasma jets attract a lot of attentions due to its growing interest...
The paper proposes a new atmospheric pressure plasma jet (APPJ) source for operation in air and nitr...
In this work, an atmospheric pressure plasma jet generated by AC voltage with 71 kHz frequency in Ar...
Plasma is gas ionized by energizing electrons through electric fields, leading to various collisiona...
Nonequilibrium plasmas driven by submicrosecond high voltage pulses have been proven to produce high...