DocumentCode
2950577
Title
Computational modeling of pulsed-power-driven magnetized target fusion experiments
Author
Sheehey, Peter ; Kirkpatrick, Ronald ; Lindemuth, Irvin
Author_Institution
Los Alamos Nat. Lab., NM, USA
Volume
2
fYear
1995
fDate
3-6 July 1995
Firstpage
1030
Abstract
Direct magnetic drive using electrical pulsed power has been considered impractically slow for traditional inertial confinement implosion of fusion targets. However, if the target contains a preheated, magnetized plasma, magnetothermal insulation may allow the near-adiabatic compression of such a target to fusion conditions on a much slower time scale. 100 MJ-class explosive flux compression generators, with implosion kinetic energies far beyond those available with conventional fusion drivers, are an inexpensive means to investigate such magnetized target fusion (MTF) systems. One means of obtaining the preheated and magnetized plasma required for an MTF system is the recently reported "MAGO" concept. MAGO is a unique, explosive-pulsed-power driven discharge in two cylindrical chambers joined by an annular nozzle. Joint Russian-American MAGO experiments have reported D-T neutron yields in excess of 10/sup 13/ from this plasma preparation stage alone, without going on to the proposed separately driven MTF implosion of the main plasma chamber. 2-D MHD computational modeling of MAGO discharges shows good agreement with experiments. The calculations suggest that after the observed neutron pulse, a diffuse Z-pinch plasma with temperature in excess of 100 eV is created, which may be suitable for subsequent MTF implosion, in a heavy liner magnetically driven by explosive pulsed power. Other MTF concepts, such as fiber-initiated Z-pinch target plasmas, are also being computationally and theoretically evaluated. The status of the authors\´ modeling efforts are reported.
Keywords
Z pinch; explosions; fusion reactor theory; magnetic flux; plasma inertial confinement; plasma magnetohydrodynamics; power supplies to apparatus; pulse generators; pulsed power technology; 100 MJ; 2-D MHD computational modeling; D-T neutron yields; MAGO concept; diffuse Z-pinch plasma; explosive flux compression generators; implosion kinetic energies; inertial confinement implosion; magnetized target fusion experiments; magnetothermal insulation; preheated magnetized plasma; pulsed power supplies; Computational modeling; Explosives; Inertial confinement; Insulation; Magnetic confinement; Magnetic flux; Magnetic separation; Neutrons; Plasma confinement; Plasma temperature;
fLanguage
English
Publisher
ieee
Conference_Titel
Pulsed Power Conference, 1995. Digest of Technical Papers., Tenth IEEE International
Conference_Location
Albuquerque, NM, USA
Print_ISBN
0-7803-2791-8
Type
conf
DOI
10.1109/PPC.1995.599748
Filename
599748
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