Yourui Huang scite author profile

This paper describes a microwave plasma jet in an argon atmosphere capable of generating filamentary streamer discharges within the entire quartz tube excited by surface waves of surface plasmon polaritons (SPPs) located in the tube. Several discharge streamers are immediately produced at the end of the copper wire when incident power reaches 20 W. From simulations, the wavelength of the surface wave was found to be approximately 5.7 cm. Although the developing streamers induce E-field enhancements favoring discharging, more streamer bifurcations requiring additional energy to maintain discharging diminish the resonant enhanced E-field. The underlying mechanism of the proposed plasma jet is resonant excitation of SPPs and its interaction with plasmas.

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PIC/MCC Simulation of the Ionization Process for Filamentary Streamer Plasma Jet at Atmosphere Pressure in Argon

Chen

Liu

Xia

et al. 2012

IEEE Trans. Plasma Sci.

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Cost Function-Based Open-Phase Fault Diagnosis for PMSM Drive System With Model Predictive Current Control

Hang

Zhang

et al. 2021

IEEE Trans. Power Electron.

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The tuning principle of adaptive fuzzy fractional-order PID controller parameters

Tian

Huang

Zhang

2010

Procedia Engineering

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Self-consistent fluid modeling and simulation on a pulsed microwave atmospheric-pressure argon plasma jet

Chen

Yin

Ming-gong

et al. 2014

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In present study, a pulsed lower-power microwave-driven atmospheric-pressure argon plasma jet has been introduced with the type of coaxial transmission line resonator. The plasma jet plume is with room air temperature, even can be directly touched by human body without any hot harm. In order to study ionization process of the proposed plasma jet, a self-consistent hybrid fluid model is constructed in which Maxwell's equations are solved numerically by finite-difference time-domain method and a fluid model is used to study the characteristics of argon plasma evolution. With a Guass type input power function, the spatio-temporal distributions of the electron density, the electron temperature, the electric field, and the absorbed power density have been simulated, respectively. The simulation results suggest that the peak values of the electron temperature and the electric field are synchronous with the input pulsed microwave power but the maximum quantities of the electron density and the absorbed power density are lagged to the microwave power excitation. In addition, the pulsed plasma jet excited by the local enhanced electric field of surface plasmon polaritons should be the discharge mechanism of the proposed plasma jet.

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Yourui Huang

Filamentary streamer discharges in argon at atmospheric pressure excited by surface plasmon polaritons

PIC/MCC Simulation of the Ionization Process for Filamentary Streamer Plasma Jet at Atmosphere Pressure in Argon

Cost Function-Based Open-Phase Fault Diagnosis for PMSM Drive System With Model Predictive Current Control

The tuning principle of adaptive fuzzy fractional-order PID controller parameters

Self-consistent fluid modeling and simulation on a pulsed microwave atmospheric-pressure argon plasma jet

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