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Studies of Dynamic, Radiative Macroscopic Magnetized HED Plasmas with Closed B-Field Lines
[摘要] The purpose of this research has been to study the physics of macroscopic magnetized high-energy-density laboratory plasmas (HEDLPs) created through the compression of a high-beta compact toroid (CT) plasma having closed magnetic field lines. The high-beta CT chosen for this work is a field-reversed configuration (FRC). The basic approach is to investigate CT plasmas as they are compressed to a HED state by the electromagnetic implosion of a surrounding metallic shell or solid liner (Figure 1). The shell provides an axisymmetric, electrically-conducting boundary around the plasma and its supporting magnetic field and is imploded by means of the magnetic pressure force arising from axial current flow in the liner interacting with its associated azimuthal magnetic field. Compression of the CT will bring the plasma to fusion temperatures at higher densities and magnetic fields (multi-MegaGauss [MG]) than have previously been present in conventional magnetic fusion approaches. The resulting energy densities will be ~1 Mbar or greater and thus will place the plasma in a parameter space intermediate to MFE and IFE. This work has been a collaboration between the Air Force Research Laboratory, Los Alamos National Laboratory, and NumerEx, LLC.
[发布日期] 2013-11-01 [发布机构] 
[效力级别]  [学科分类] 原子、分子光学和等离子物理
[关键词] Magnetized Target Fusion;MTF;high-energy-density laboratory plasmas;HEDLP;field-reversed configuration;FRC;high-beta compact toroid plasma;magnetohydrodynamics;MHD;extended MHD;XMHD;FRC rotation [时效性] 
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