Metal liner-driven quasi-isentropic compression of deuterium

Metal liner-driven quasi-isentropic compression of deuterium

Properties of degenerate hydrogen and deuterium (D) at pressures of the order of terapascals are of key interest to Planetary Science and Inertial Confinement Fusion. In order to recreate these conditions in the laboratory, we present a scheme, where a metal liner drives a cylindrically convergent q...

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Veröffentlicht in:Physics of plasmas 2013-09, Vol.20 (9)
Hauptverfasser: Weinwurm, Marcus, Bland, Simon N., Chittenden, Jeremy P.
Format: Artikel
Sprache:eng
Schlagworte:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
BERYLLIUM
COMPRESSION
CURRENTS
CYLINDRICAL CONFIGURATION
DEUTERIUM
External pressure
Flow simulation
HYDROGEN
IMPLOSIONS
INERTIAL CONFINEMENT
Inertial confinement fusion
ISENTROPIC PROCESSES
LINERS
MAGNETOHYDRODYNAMICS
PLASMA
Plasma physics
PLASMA SIMULATION
RAYLEIGH-TAYLOR INSTABILITY
Self-similarity
Stability
Taylor instability
THERMONUCLEAR IGNITION
THERMONUCLEAR REACTORS
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Zusammenfassung:Properties of degenerate hydrogen and deuterium (D) at pressures of the order of terapascals are of key interest to Planetary Science and Inertial Confinement Fusion. In order to recreate these conditions in the laboratory, we present a scheme, where a metal liner drives a cylindrically convergent quasi-isentropic compression in a D fill. We first determined an external pressure history for driving a self-similar implosion of a D shell from a fictitious flow simulation [D. S. Clark and M. Tabak, Nucl. Fusion 47, 1147 (2007)]. Then, it is shown that this D implosion can be recreated inside a beryllium liner by shaping the current pulse. For a peak current of 10.8 MA cold and nearly isochoric D is assembled at around 12 500 kg/m3. Finally, our two-dimensional Gorgon simulations show the robustness of the implosion method to the magneto-Rayleigh-Taylor instability when using a sufficiently thick liner.
ISSN:1070-664X
1089-7674
DOI:10.1063/1.4820805