Abstract
Simulation Science is explored by developing Man-machine Interactive System for Simulation (MISSION), in which an advanced virtual reality visualization system is an important element. Plasma is an exemplar of a medium governed by complexity, and plasma physics research is evolving from a “static science” into a “dynamic science”. In this paper, a topic in Simulation Science on nonlinear behavior of plasma physics is picked up, specifically, energy relaxation phenomena. Three-dimensional simulations are executed to clarify physical mechanisms of relaxation activities that are observed in the spherical tokamak experiments. The simulation results predict an occurrence of self-organizing transition from an axisymmetric state to a stable n=2 helical state.
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