partOf
- AC, low frequency, atmospheric pressure, non-thermal
- Configuration for positive streamer: atmospheric-pressure air, gas temperature of 300 K, two electrodes set 1.25 cm apart with a radius of 1.25 cm, constant voltage of -18.75 kV applied at the powered electrode, additional Gaussian seed of ions introduced near the anode
- DC and RF low-pressure glow discharges in argon using a plane-parallel electrode configuration; Constant DC voltage of 350V; Sinusoidal voltage with voltage ampitude of 350V and frequency of 13.56 MHz; Gap distance of 1 cm; Pressure of 1 Torr; Temperature of 300 K; Constant gas temperature and pressure.
- Low-pressure RF plasma between plane electrodes separated by the distance d, driven by a sinusoidal voltage with amplitude V0 and frequency f; d = 2.5 cm (argon) resp. 6.7 cm (helium); V0 = 50-250 V; f = 13.56 MHz; Current density: 10 A/m^2; Gas temperature: 300 K; Pressure: 10-80 Pa
- Test case 1: positive streamers in dry air at 1 bar and 300 K, simulated between planar electrodes in a square domain with a radius and height of 1.25 cm, background electric field of 15 kV/cm, Gaussian distribution of positive ions is placed below the anode, constant initial background density of electrons and Ions of 10¹³ m⁻³, no photoionization
- Test case 2: positive streamers in dry air at 1 bar and 300 K, simulated between planar electrodes in a square domain with a radius and height of 1.25 cm, background electric field of 15 kV/cm, Gaussian distribution of positive ions is placed below the anode, constant initial background density of electrons and ions of 10⁹ m⁻³, no photoionization
- Test case 3: positive streamers in dry air at 1 bar and 300 K, simulated between planar electrodes in a square domain with a radius and height of 1.25 cm, background electric field of 15 kV/cm, Gaussian distribution of positive ions is placed below the anode, constant initial background density of electrons and ions of 10⁹ m⁻³, photoionization included