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Numerical simulations of stable, high-electron-density atmospheric pressure argon plasma under pin-to-plane electrode geometry: effects of applied voltage polarity

Yosuke Sato, Kenji Ishikawa, Takayoshi Tsutsumi, Akio Ui, Masato AKITA, Shotaro OKA, Masaru Hori

2020Journal of Physics D Applied Physics32 citationsDOIOpen Access PDF

Abstract

Abstract When applying high-voltage direct current to a pin-to-plane electrode geometry with a distance of 2 mm under atmospheric pressure in argon gas, electrical breakdown forms primary then secondary streamers. The polarity of the applied voltage affects this streamer-propagating phenomenon. Properties such as propagation speed, streamer head size, and plasma generation are parameterized at nanosecond scales by computational simulations of a self-consistent, multi-species, multi-temperature plasma fluid modeling approach. For positive polarity on the pin electrode, streamer-head propagation speeds up and streamer head size increases with increasing applied voltages. However, local electron density at the head decreases. For negative polarity, corona-like discharges form around the pin electrode under low applied voltages, and diffusive steamers form under high applied voltages. Secondary streamers re-propagate from the pin after primary streamer propagation, forming a plasma with a high electron density of 10 21 m −3 for the positive polarity. We show that low-voltage operations with positive polarity are useful for stable high-electron-density discharges under atmospheric pressure argon.

Topics & Concepts

Polarity symbolsElectrodePlasmaArgonStreamer dischargeAtmospheric pressureVoltagePolarity (international relations)Electron densityBreakdown voltageAtomic physicsElectronChemistryMaterials scienceNanosecondOpticsPhysicsLaserQuantum mechanicsBiochemistryCellPhysical chemistryMeteorologyPlasma Applications and DiagnosticsPlasma Diagnostics and ApplicationsAerosol Filtration and Electrostatic Precipitation
Numerical simulations of stable, high-electron-density atmospheric pressure argon plasma under pin-to-plane electrode geometry: effects of applied voltage polarity | Litcius