A simple analysis of the tubular pinch discharge
Wulf B. Kunkel, Lawrence Radiation Laboratory, University of California, Berkeley. Lawrence Radiation Laboratory
Lawrence Radiation Laboratory, 1960 - Science - 15 pages
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absolute value approximation assumed California July 25 circuit complete cylindrical symmetry compression oscillations compression waves configuration conventional linear pinch current distribution current layer current-carrying region cylindrical plasma d_ dt dA/dt deuterium displacement oscillations dt amp/sec electrode employee or contractor equation estimate expression External observables fluctuations flux balance flux inside flux linked frequency geometry inductance per unit inside the current-carrying inside the plasma instant when dl/dt Kunkel Lawrence Radiation Lawrence Radiation Laboratory magnetic field magnetic pressure milliohm neglect the flux number of particles oscilloscope traces outer return conductor pinch currents PINCH DYNAMICS plasma in equilibrium plasma sleeve plasma thickness pressure balance process disclosed Quantitative Radiation Laboratory University rate of change regular and reproducible self-inductance sheet pinch shown in Fig SIMPLE ANALYSIS small compared snowplow model stray flux temperature thin plasma Transmission Line Triax discharge tube voltage tubular pinch discharge unit length University of California variable inductance