Title :
Liner Stability Problems for Megagauss Fusion
Author :
Turchi, Peter J.
Abstract :
Megagauss fields obtained by liner implosion may offer controlled fusion at much lower cost, size, and entry power levels than conventional fusion schemes. Such implosions are subject to elastic-plastic instability (for solid-density liners) and Rayleigh-Taylor instability in fluid liners (liquid or plasma). This paper provides budgets on allowable perturbations for the inner surface of the liner to offer a simple guide for researchers.
Keywords :
Rayleigh-Taylor instability; elasticity; explosions; fusion reactor ignition; plasma production; plasticity; Rayleigh-Taylor instability; controlled fusion; elastic-plastic instability; fluid liners; liner implosion; liner stability problems; liquid liners; megagauss fields; megagauss fusion; plasma liners; solid density liners; Acceleration; Magnetic liquids; Optical surface waves; Payloads; Plasmas; Surface waves; Fusion; imploding liners; megagauss; megagauss.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2375315
