Modeling of Radiative Properties of the Wire Array Z-Pinches

Recent experiments show that the wire-array z-pinch plasmas are strongly inhomogeneous at small scales. The inhomogeneities are not shot-to-shot reproducible while the arrays provide extremely reproducible x-ray pulses and generate mega-joules of radiation at implosion. This is possible if small-sca...

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Hauptverfasser:	Chuvatin, A S, Rudakov, L I, Velikovich, A L
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	70 PLASMA PHYSICS AND FUSION TECHNOLOGY COMPUTERIZED SIMULATION EFFICIENCY ENERGY CONVERSION EXPLODING WIRES IMPLOSIONS LONGITUDINAL PINCH MASS PLASMA PLASMA SIMULATION PULSE SHAPERS PULSES X RADIATION X-RAY SOURCES
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creator	Chuvatin, A S Rudakov, L I Velikovich, A L
description	Recent experiments show that the wire-array z-pinch plasmas are strongly inhomogeneous at small scales. The inhomogeneities are not shot-to-shot reproducible while the arrays provide extremely reproducible x-ray pulses and generate mega-joules of radiation at implosion. This is possible if small-scale structures are averaged in the implosion dynamics and if the energy balance and radiation production are mainly determined by the macroscopic, space-averaged plasma properties. We suggest that the basic physics of radiating wire array implosions could be modeled within a quasi-1D large-scale description. We show that such a quasi-1D hydro model reproduces basic radiative properties of the wire-array z-pinches if the Spitzer resistivity is enhanced by a factor, proportional to 2, where = ee is the Hall parameter. It becomes possible to explain the radiation pulse shapes and high experimental efficiency of magnetic energy conversion into radiation in the most powerful laboratory x-ray sources. Our results also reproduce some recently discovered properties of these x-ray sources, such as trailing mass during the implosion and radiation beginning before arrival of the entire imploding mass onto the axis.
doi_str_mv	10.1063/1.2159385
format	Conference Proceeding
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subjects	70 PLASMA PHYSICS AND FUSION TECHNOLOGY COMPUTERIZED SIMULATION EFFICIENCY ENERGY CONVERSION EXPLODING WIRES IMPLOSIONS LONGITUDINAL PINCH MASS PLASMA PLASMA SIMULATION PULSE SHAPERS PULSES X RADIATION X-RAY SOURCES
title	Modeling of Radiative Properties of the Wire Array Z-Pinches
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