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Two-dimensional radiation MHD K-shell modeling of stainless-steel double-wire-array experiments on the refurbished Z machine

Thornhill, J.W.; Giuliani, John L.; Dasgupta, Arati; Apruzese, John P.; Davis, Jack; Chong, Young K.; Jennings, Christopher A.; Ampleford, David A.; Jones, Brent M.; Coverdale, Christine A.; Jones, Brent M.; Cuneo, Michael E.; Stygar, W.A.

Two-dimensional (r, z) magnetohydrodynamic simulations with nonlocal thermodynamic equilibrium ionization and radiation transport are used to investigate the K-shell radiation output from doubly nested large-diameter (> 60 mm) stainlesssteel arrays fielded on the refurbished Z pulsed-power generator. The effects of the initial density perturbations, wire ablation rate, and current loss near the load on the total power, K-shell power, and K-shell yield are examined. The broad mass distribution produced by wire ablation largely overcomes the deleterious impact on the K-shell power and yield of 2-D instability growth. On the other hand, the possible current losses in the final feed section lead to substantial reductions in K-shell yield. Following a survey of runs, the parameters for the perturbation level, ablation rate, and current loss are chosen to benchmark the simulations against existing 65-mm-diameter radiation data. Themodel is then used to predict the K-shell properties of larger diameter (70 mm) arrays to be imploded on the Z generator. © 2010 IEEE.