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WADM and radiation MHD simulations of compact multi-planar and cylindrical wire arrays at 1 MA currents
Authors:A.A. Esaulov   V.L. Kantsyrev   A.S. Safronova   K.M. Williamson   I. Shrestha   G.C. Osborne   M.F. Yilmaz   N.D. Ouart  M.E. Weller
Affiliation:aDepartment of Physics, University of Nevada, Reno, NV 89557, USA
Abstract:The radiative performance of Z-pinches created by the imploding wire array loads is defined by the ablation and implosion dynamics of these loads. Both these processes can be effectively modeled by the Wire Ablation Dynamics Model (WADM), which extends the formalism exploited earlier for the cylindrical wire arrays to the loads of arbitrary geometries. The WADM calculates the ablation rates for each array wire and provides the important dynamic parameters, such as the specific mass and velocity of the imploding plasma, which can be used to estimate the shapes of the x-ray pre-pulse and, partially, the main x-ray burst. The applications of the WADM also extend to combined material wire array loads. The ablation and implosion dynamics of novel Prism Planar Wire Array (PPWA) and combined material (Mo/Al/Mo) Triple Planar Wire Array (TPWA) loads are discussed in detail. The combined WADM and radiation MHD simulation is applied to model the radiative performance of the precursor plasma column, created by the imploding stainless steel compact cylindrical wire array. As the radiation effects intensify with the mass accumulation at the array center, the simulation reveals the transformation of quasi-uniform precursor column into a heterogeneous plasma structure with strong density and temperature gradients. We find that radiative performance of the precursor plasma is greatly affected by the load geometry as well as by the wire material.
Keywords:Wire array   X-ray source   Z-pinch   Precursor plasma column
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