Title :
Verification and validation adventures in simulating megagauss-magnetic-field-induced plasma formation on thickwire metallic surfaces
Author :
Lindemuth, I.R. ; Siemon, R.E. ; Bauer, B.S. ; Atchison, Walter L.
Author_Institution :
Univ. of Nevada, Reno, NV, USA
Abstract :
We discuss various verification and validation issues in computational modeling of a series of aluminum “thick-wire,” i.e., rod, experiments that have been conducted on the University of Nevada, Reno (UNR) Zebra generator (2 TW, 1 MA, 100 ns). These conceptually simple experiments involve multi-megagauss surface magnetic fields and have proven to be exceptionally rich in physical phenomena. The experiments also present severe computational challenges. We show that with a proper choice of equation-of-state and resistivity models Eulerian simulations can reproduce many of the observations to a reasonable degree. We also show that Eulerian and Lagrangian computations agree only with serious caveats, leading to the question of whether or not the computations are satisfactorily verified.
Keywords :
aluminium; equations of state; plasma magnetohydrodynamics; plasma production; plasma simulation; plasma thermodynamics; plasma transport processes; plasma-wall interactions; Al; Eulerian computations; Eulerian simulations; Lagrangian computations; Reno Zebra generator; University of Nevada; aluminum thick-wire; computational modeling; current 1 MA; equation-of-state; megagauss-magnetic-field-induced plasma formation; multimegagauss surface magnetic fields; power 2 TW; resistivity models; thickwire metallic surfaces; time 1 ns; Computational modeling; Conductivity; Equations; Materials; Mathematical model; Plasma temperature; Eulerian and Lagrangian simulations; magnetohydrodynamics; megagauss magnetic fields;
Conference_Titel :
Magnetic Field Generation and Related Topics (MEGAGUSS), 2012 14th International Conference on Megagauss
Conference_Location :
Maui, HI
Print_ISBN :
978-1-4673-5719-7
DOI :
10.1109/MEGAGAUSS.2012.6781440
