The unique conditions of edge tokamak plasmas motivate the employment of efficient numerical methods that can robustly handle steep temperature and density ...
While each physical problem has its own ideal algorithm, the lessons learned from simulating systems relevant to edge plasma turbulence can be applied to other ...
Abstract. The unique conditions of edge tokamak plasmas motivate the employment of efficient numerical methods that can robustly handle steep temperature ...
Positivity Preservation and Advection Algorithms with Applications to Edge Plasma Turbulence ... algorithms are able to rigorously preserve positivity when ...
The Gibbs noise obviously prevents smooth vortices in the relevant turbulent transport scales and so reduces the overall advective transport level. To avoid ...
May 2, 2013 · The unique conditions of edge tokamak plasmas motivate the employment of efficient numerical methods that can robustly handle steep ...
Positivity Preservation and Advection Algorithms with Applications to Edge Plasma Turbulence. Open Webpage · J. Luc Peterson, Gregory W. Hammett. Published: 31 ...
We explain in detail the use of these methods for the nonlinear Poisson bracket, an operator applicable to neutral fluid, gyrofluid, gyrokinetic, and general ...
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Comparisons of Positivity Preserving Advection Algorithms for Edge Plasma Turbulence Simulations ... We explore here different algorithms for positivity- ...
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