Applied magnetic field design for the field reversed configuration compression heating experiment

M. T. Domonkos; D. Amdahl; J. F. CamachoS. K. CoffeyJ. H. DegnanR. DelaneyM. FreseD. GaleT. C. GrabowskiR. GribbleT. P. IntratorJ. McCulloughN. MontanoP. R. RobinsonG. Wurden

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Applied magnetic field design for the field reversed configuration compression heating experiment

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Detailed calculations of the formation, guide, and mirror applied magnetic fields in the FRC compression-heating experiment (FRCHX) were conducted using a commercially available generalized finite element solver, COMSOL Multiphysics. In FRCHX, an applied magnetic field forms, translates, and finally captures the FRC in the liner region sufficiently long to enable compression. Large single turn coils generate the fast magnetic fields necessary for FRC formation. Solenoidal coils produce the magnetic field for translation and capture of the FRC prior to liner implosion. Due to the limited FRC lifetime, liner implosion is initiated before the FRC is injected, and the magnetic flux that diffuses into the liner is compressed. Two-dimensional axisymmetric magnetohydrodynamic simulations using MACH2 were used to specify optimal magnetic field characteristics, and this paper describes the simulations conducted to design magnetic field coils and compression hardware for FRCHX. This paper presents the vacuum solution for the magnetic field.

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来源
《Review of Scientific Instruments》 |2013年第4期|043507-1-043507-7|共7页
作者
M. T. Domonkos; D. Amdahl; J. F. CamachoS. K. CoffeyJ. H. DegnanR. DelaneyM. FreseD. GaleT. C. GrabowskiR. GribbleT. P. IntratorJ. McCulloughN. MontanoP. R. RobinsonG. Wurden;
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Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA;

Directed Energy Directorate, Air Force Research Laboratory, Kirtland AFB, New Mexico 87117, USA;

NumerEx LLC, Albuquerque, New Mexico 87106, USASAIC, Albuquerque, New Mexico 87106, USA;

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Applied magnetic field design for the field reversed configuration compression heating experiment

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