A. M. Astafiev scite author profile

A. M. Astafiev

4Publications

41Citation Statements Received

31Citation Statements Given

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Affiliations

Harbin Institute of Technology, St Petersburg University, Saint Petersburg State Electrotechnical University

Publications

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Stepwise propagation of a guided streamer along a DBD helium plasma jet fed by biased oscillating voltage

Pinchuk

Stepanova

Astafiev

et al. 2019

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A stepwise propagation of a guided streamer along a helium atmospheric pressure plasma jet driven by a dielectric barrier discharge was recorded. To feed the plasma jet, we used a power supply generating an output voltage signal consisting of a superposition of 41.6 kHz bipolar square pulses and 300 kHz oscillating signals. At a positive half a period of the output voltage signal, a step-by-step propagation was observed for the ionization wave along the plasma jet. The streamer head stops with the decrease in voltage in the first cycle of oscillations and then restarts its motion at the voltage front of the next cycle of a voltage oscillation. The streamer propagation velocity and plasma jet length are likely to be controlled by varying the gas flow rate, bias voltage, voltage rise rate, frequency of oscillations in the pulse, and other parameters.

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Plasma Combustion Nature of Artificial Ball Lightning

Emelin

Бычков

Astafiev

et al. 2012

IEEE Trans. Plasma Sci.

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Bactericidal Effect of a Dielectric Barrier Discharge Plasma Jet Generated in Laminar and Preturbulent Helium Flows

et al. 2017

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A streamer behavior evolution during an applied voltage cycle in helium and argon atmospheric pressure plasma jets fed by DBD

Stepanova¹,

Pinchuk²,

Astafiev³

et al. 2020

Jpn. J. Appl. Phys.

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The study describes the behavior of plasma streamer discharges in helium and argon atmospheric pressure plasma jets fed by dielectric barrier discharge with the specific AC voltage waveform, which has hundred-kHz oscillations deviated from the zero level. The equivalent electrical and gas feeding conditions for producing both helium and argon jets have been provided. The plasma jet in helium is shown to have a diffusive structure and is formed by guided ionization waves, whereas an argon plasma jet is formed by numerous filaments which can have several branches on their ends. Repetitive stepwise plasma bullet formation has been observed in He plasma jet, whereas random and stochastic branching of the streamer has been recorded in Ar plasma jet. Both types of streamers have an approximately equal maximum of their length but significantly differ with the lifetime: they exist for about 1 and almost 8 μs in the argon and helium plasma jets, correspondingly.

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A. M. Astafiev

Stepwise propagation of a guided streamer along a DBD helium plasma jet fed by biased oscillating voltage

Plasma Combustion Nature of Artificial Ball Lightning

Bactericidal Effect of a Dielectric Barrier Discharge Plasma Jet Generated in Laminar and Preturbulent Helium Flows

A streamer behavior evolution during an applied voltage cycle in helium and argon atmospheric pressure plasma jets fed by DBD

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