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We present the Green's function method for a special class of self-consistent three-dimensional solutions of the MHS equations. This allows the construction of MHS solutions with arbitrary Dirichlet or von Neumann boundary conditions. These solutions can be used to extrapolate coronal magnetic fields from known photospheric field data and provide a self-consistent description of magnetic field, plasma pressure, plasma density and plasma temperature. The method therefore allows a much more complete reconstruction of solar coronal structures than is possible by potential or linear force-free field extrapolation. We will demonstrate this property by showing simple examples.</p
Aims.We develop an optimization principle for computing stationary MHD equilibria. Methods....
Aims.We develop an optimization principle for computing stationary MHD equilibria. Methods....
A new mathematical formulation for calculating a special class of self-consistent three-dimensional ...
We present the Green's function method for a special class of self-consistent three-dimensional solu...
We present the Green's function method for a special class of linear self-consistent three-dimension...
Context.This paper presents a method which can be used to calculate models of the global solar coron...
Context. This paper presents a method which can be used to calculate models of the global solar coro...
For the extrapolation of magnetic fields into the solar corona from measurements taken in the photos...
A new mathematical procedure is presented to calculate special self-consistent three-dimensional ana...
For the extrapolation of magnetic fields into the solar corona from measurements taken in the photos...
Aims. We compute the distribution of the magnetic field and the plasma in the global corona with a ...
Aims. We compute the distribution of the magnetic field and the plasma in the global corona with a ...
Aims. We compute the distribution of the magnetic field and the plasma in the global corona with a s...
Methods for the calculation of self-consistent MHD equilibria in three dimensions are very important...
Methods for the calculation of self-consistent MHD equilibria in three dimensions are very important...
Aims.We develop an optimization principle for computing stationary MHD equilibria. Methods....
Aims.We develop an optimization principle for computing stationary MHD equilibria. Methods....
A new mathematical formulation for calculating a special class of self-consistent three-dimensional ...
We present the Green's function method for a special class of self-consistent three-dimensional solu...
We present the Green's function method for a special class of linear self-consistent three-dimension...
Context.This paper presents a method which can be used to calculate models of the global solar coron...
Context. This paper presents a method which can be used to calculate models of the global solar coro...
For the extrapolation of magnetic fields into the solar corona from measurements taken in the photos...
A new mathematical procedure is presented to calculate special self-consistent three-dimensional ana...
For the extrapolation of magnetic fields into the solar corona from measurements taken in the photos...
Aims. We compute the distribution of the magnetic field and the plasma in the global corona with a ...
Aims. We compute the distribution of the magnetic field and the plasma in the global corona with a ...
Aims. We compute the distribution of the magnetic field and the plasma in the global corona with a s...
Methods for the calculation of self-consistent MHD equilibria in three dimensions are very important...
Methods for the calculation of self-consistent MHD equilibria in three dimensions are very important...
Aims.We develop an optimization principle for computing stationary MHD equilibria. Methods....
Aims.We develop an optimization principle for computing stationary MHD equilibria. Methods....
A new mathematical formulation for calculating a special class of self-consistent three-dimensional ...
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