Development of a Mathematical Model and the Numerical Solution Method in a Combined Impact Scheme for MIF Target

    Received 17 July 2019; accepted 15 November 2019

    2020, Vol. 16, no. 2, pp.  325-341

    Author(s): Kuzenov V. V., Ryzhkov S. V., Starostin A. V.

    This work is devoted to the theoretical calculation of the processes of compression and energy release in the target by a combined action of a system of pulsed jets and intense laser radiation using a magnetic inertial plasma confinement method. A mathematical model, a numerical method, and a computational algorithm are developed to describe plasma-physical processes occurring in various types of high-temperature installations with high density. The results of the calculation of the hybrid effect of intensive energy flows on a cylindrical target are presented. The main gas-dynamic and radiative parameters of the compressed target plasma are found.
    Keywords: computer simulation, magnetized target, mathematical modeling, numerical algorithm
    Citation: Kuzenov V. V., Ryzhkov S. V., Starostin A. V., Development of a Mathematical Model and the Numerical Solution Method in a Combined Impact Scheme for MIF Target, Rus. J. Nonlin. Dyn., 2020, Vol. 16, no. 2, pp.  325-341
    DOI:10.20537/nd200207


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