We discuss steady-state transonic outflows obtained by direct numerical solution of the hydrodynamic and magnetohydrodynamic equations. We make use of the Versatile Advection Code, a software package for solving systems of (hyperbolic) partial differential equations. We proceed stepwise from a spherically symmetric, isothermal, unmagnetized, non-rotating Parker wind to arrive at axisymmetric, polytropic, magnetized, rotating models. These represent 2D generalisations of the analytical ID Weber-Davis wind solution, which we obtain in the process. Axisymmetric wind solutions containing both a \u27wind\u27 and a \u27dead\u27 zone are presented. Since we are solving for steady-state solutions, we efficiently exploit fully implicit time stepping...
A model of a radiatively driven, magnetohydrodynamic wind flow confined in theequatorial plane of th...
A numerical investigation is performed of the accretion of slowly rotating matter onto a stellar mag...
Aims. I report results in numerical simulations of star-disk magnetospheric interaction. A thin accr...
We discuss steady-state transonic outflows obtained by direct numerical solution of the hydrodynamic...
We discuss steady-state transonic outflows obtained by direct numerical solution of the hydrodynamic...
. We discuss steady-state transonic outflows obtained by direct numerical solution of the hydrodynam...
Axisymmetric stellar wind solutions are presented that were obtained by numerically solving the idea...
We present 2.5D stationary solar/stellar wind numerical simulation results obtained within the magne...
A numerical scheme has been developed to solve the quasilinear form of the transonic stream function...
A simplified model for the stationary, axisymmetric structure of magnetized winds with a polytropic ...
A new class of analytical 2-D solutions of the full set of the steady magnetohydrodynamic (MHD) eq...
We investigate the launching of outflows from the disc–magnetosphere boundary of slowly and rapidly ...
The solar wind fills the heliosphere and is the background medium in which coronal mass ejections pr...
We present numerical magnetohydrodynamic (MHD) simulations of the effect of stellar dipole magnetic ...
The development, testing, and application of a two dimensional radiation magnetohydrodynamics (RMHD)...
A model of a radiatively driven, magnetohydrodynamic wind flow confined in theequatorial plane of th...
A numerical investigation is performed of the accretion of slowly rotating matter onto a stellar mag...
Aims. I report results in numerical simulations of star-disk magnetospheric interaction. A thin accr...
We discuss steady-state transonic outflows obtained by direct numerical solution of the hydrodynamic...
We discuss steady-state transonic outflows obtained by direct numerical solution of the hydrodynamic...
. We discuss steady-state transonic outflows obtained by direct numerical solution of the hydrodynam...
Axisymmetric stellar wind solutions are presented that were obtained by numerically solving the idea...
We present 2.5D stationary solar/stellar wind numerical simulation results obtained within the magne...
A numerical scheme has been developed to solve the quasilinear form of the transonic stream function...
A simplified model for the stationary, axisymmetric structure of magnetized winds with a polytropic ...
A new class of analytical 2-D solutions of the full set of the steady magnetohydrodynamic (MHD) eq...
We investigate the launching of outflows from the disc–magnetosphere boundary of slowly and rapidly ...
The solar wind fills the heliosphere and is the background medium in which coronal mass ejections pr...
We present numerical magnetohydrodynamic (MHD) simulations of the effect of stellar dipole magnetic ...
The development, testing, and application of a two dimensional radiation magnetohydrodynamics (RMHD)...
A model of a radiatively driven, magnetohydrodynamic wind flow confined in theequatorial plane of th...
A numerical investigation is performed of the accretion of slowly rotating matter onto a stellar mag...
Aims. I report results in numerical simulations of star-disk magnetospheric interaction. A thin accr...
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