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DOE Plasma Science Center Control of Plasma Kinetics

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Presentation on theme: "DOE Plasma Science Center Control of Plasma Kinetics"— Presentation transcript:

1 DOE Plasma Science Center Control of Plasma Kinetics
TWO-STREAM INSTABILITY OF AN ELECTRON BEAM PROPAGATING IN A BOUNDED PLASMA Electron beams propagating in a bounded plasma excite a two-stream instability. An analytical model was developed to predict instability growth rates. (Invited talk, APS-DPP Meeting) Comparisons were made to PIC simulations of injected e-beam into bounded systems. Instabilities in bounded systems have slower growth rates and do not develop standing waves. Figure shows (a) frequency, (b) growth rate, (c) wavenumber, (d) spatial growth rate, and (e) wave periods per system length vs length of the system. + = analytical solution, __ = nb/np= __ = nb/np= , __ fitting formula, Fig. (c), resonant wavenumber. DOE Plasma Science Center Control of Plasma Kinetics HIGHLIGHT December 2015 1

2 DOE Plasma Science Center Control of Plasma Kinetics
PIC SIMULATIONS OF DC ATMOSPHERIC PRESSURE ARGON DISCHARGES: WATER BOUNDARIES Electric field Electron energy to water/anode surface A 760 Torr, 300 K argon discharge, 2 mm gap, was modeled using 1D3v PIC simulations. A dc current of -40 kA/m2 was applied at the cathode (x=0). The plasma-water boundary is treated as a grounded anode (x=2 mm). Electron diffusion is insufficient to satisfy current continuity at 1 atm. An electric field forms to accelerate electrons to the anode water surface. The relatively high electron impact energy onto water suggests there are few if any energetic barriers for electrons to enter the water and become solvated. HIGHLIGHT DOE Plasma Science Center Control of Plasma Kinetics December 2015 2

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