Add to ORKGAbstract: The SPIDER code is an axisymmetric multipurpose plasma equilibrium solver for different formulations of the tokamak plasma equilibrium problems. This paper deals with solution of direct and inverse problems for free boundary plasma equilibrium. The first part of the paper concerns the direct axisymmetric free boundary plasma equilibrium problem, which is formulated for the poloidal magnetic flux function Ψ and the unknown plasma domain Ωpin terms of the Grad-Shafranov equation over an infinite domain. Computational algorithms for the cases of fixed rectangular grid and magnetic surface adaptive grid are described. The second part of the paper concerns the inverse free boundary plasma equilibrium problem of reconstructi...
In this paper, a numerical tool, called the inverse equilibrium tool (IET), for the solution of the ...
This lecture treats the magnetohydrodynamic (MHD) equilibrium of axisymmetric plasmas, as given by t...
The use of unstructured grids and local refinement adaptation algorithms are attractive tools for th...
Abstract: The SPIDER code is an axisymmetric multipurpose plasma equilibrium solver for di...
Abstract: The SPIDER code is an axisymmetric fixed boundary plasma equilibrium solver for ...
Equilibrium reconstruction codes become one of the main tools used for interpretation and visualizat...
Non-linear time-evolution codes are essential tools for modeling of existing and future tokamak expe...
The SPIDER code. Solution of tokamak plasma equilibrium problem with anisotropic pressure and rotati...
Abstract: In the MHD tokamak plasma theory plasma pressure is usually assumed to be isotro...
Abstract: In the MHD tokamak plasma theory plasma pressure is usually assumed to be isotro...
A numerical method for the solution of the axisymmetric, free-boundary, Tokamak equilibrium problem ...
The calculation of the magnetic flux given an assumed value for the current profile in axisymmetric ...
International audienceWe consider the axisymmetric formulation of the equilibrium problem for a hot ...
We consider the axisymmetric formulation of the equilibrium problemfor a hot plasma in a tokamak. We...
Recent development of real-time equilibrium code Equinox [1] using a fixed-point algorithm [2] allow...
In this paper, a numerical tool, called the inverse equilibrium tool (IET), for the solution of the ...
This lecture treats the magnetohydrodynamic (MHD) equilibrium of axisymmetric plasmas, as given by t...
The use of unstructured grids and local refinement adaptation algorithms are attractive tools for th...
Abstract: The SPIDER code is an axisymmetric multipurpose plasma equilibrium solver for di...
Abstract: The SPIDER code is an axisymmetric fixed boundary plasma equilibrium solver for ...
Equilibrium reconstruction codes become one of the main tools used for interpretation and visualizat...
Non-linear time-evolution codes are essential tools for modeling of existing and future tokamak expe...
The SPIDER code. Solution of tokamak plasma equilibrium problem with anisotropic pressure and rotati...
Abstract: In the MHD tokamak plasma theory plasma pressure is usually assumed to be isotro...
Abstract: In the MHD tokamak plasma theory plasma pressure is usually assumed to be isotro...
A numerical method for the solution of the axisymmetric, free-boundary, Tokamak equilibrium problem ...
The calculation of the magnetic flux given an assumed value for the current profile in axisymmetric ...
International audienceWe consider the axisymmetric formulation of the equilibrium problem for a hot ...
We consider the axisymmetric formulation of the equilibrium problemfor a hot plasma in a tokamak. We...
Recent development of real-time equilibrium code Equinox [1] using a fixed-point algorithm [2] allow...
In this paper, a numerical tool, called the inverse equilibrium tool (IET), for the solution of the ...
This lecture treats the magnetohydrodynamic (MHD) equilibrium of axisymmetric plasmas, as given by t...
The use of unstructured grids and local refinement adaptation algorithms are attractive tools for th...