Confinement and compression of magnetic flux by plasma shells
Author:
Publisher
AIP Publishing
Subject
Condensed Matter Physics
Link
http://aip.scitation.org/doi/pdf/10.1063/1.1614254
Reference34 articles.
1. Production of Very High Magnetic Fields by Implosion
2. MAGNETOIMPLOSIVE GENERATORS
3. MAGNETOIMPLOSIVE GENERATORS
4. Four decades in the megagauss world
5. VNIIEF achievements on ultra-high magnetic fields generation
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1. Specificities of one-dimensional dissipative magnetohydrodynamics;Plasma Physics Reports;2016-11
2. Effect of the axial magnetic field on a metallic gas-puff pinch implosion;Physics of Plasmas;2016-06
3. One-dimensional magnetohydrodynamics of a cylindrical liner imploded by an azimuthal magnetic field and compressing an axial field;Physics of Plasmas;2015-08
4. Magnetic Field Diffusion and Enhanced Resistivity in 12-cm-Diameter 200-ns 3.5-MA $Z$-Pinch Implosions;IEEE Transactions on Plasma Science;2010-04
5. How to Maximize the Radius of a Wire-Array$Z$-Pinch for the 100-ns to 1-$muhboxs$Implosion Time Scales;IEEE Transactions on Plasma Science;2006-10
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