Magnetic and Thermal Characterization of an ELM Simulating Plasma (ESP) with Helicon Pre-Ionization
21st IEEE/NPS Symposium on Fusion Engineering SOFE 05(2005)
Key words
Tokamak devices,capacitors,coils,fusion reactor divertors,fusion reactor ignition,fusion reactor instrumentation,magnetic field effects,plasma density,plasma instability,plasma radiofrequency heating,plasma sources,preionisation,reversed field pinch,5 to 100 mTorr,B-dot probe array,ELM simulating plasma,Edge Localized Modes,Langmuir probes,RF power densities,RF thermal heating,RF-compensated in-situ thermocouple probe,argon,atomic line spectra,axial magnetic field,capacitor discharge voltage,conical theta pinch,current flow,energy densities,field reversed configuration,helicon preionization,helicon source,hydrogen,liquid lithium divertor,magnetic characterization,magnetic confinement fusion,magnetic field strengths,optical spectroscopy,plasma diagnostics,plasma energy deposition,plasma pinching,pulsed current,single turn conical copper coil,steady state magnetic field topology,target assembly,target heating parameters,thermal characterization,tokamak
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