Add to ORKGAn analytical procedure is developed to solve the magnetohydrodynamic equations for the stellar wind problem in the strong-magnetic field, optically thick limit for hot stars. The slow-mode, Alfven, and fast-mode critical points are modified by the radiation terms in the force equation but in a manner that can be treated relatively easily. Once the velocities at the critical points and the distances to the points are known, the streamline constants are determined in a straight-forward manner. This allows the structure of the wind to be elucidated without recourse to complicated computational schemes
This is the author accepted manuscript. The final version is available from the American Astronomica...
International audienceWe use two-dimensional axisymmetric magnetohydrodynamic simulations to compute...
Accurate mass-loss rate estimates are crucial keys in the study of wind properties of massive stars ...
SEE ParentDocumentRecord|Ntt=19860015036 "NASA. Marshall Space Flight Center Research Reports: 1985 ...
A model of a radiatively driven, magnetohydrodynamic wind flow confined in theequatorial plane of th...
We calculated the influence of the limb-darkened finite-disk correction factor in the theory of radi...
Accurate mass-loss rate estimates are crucial keys in the study of wind properties of massive stars ...
© 2012. The American Astronomical Society. This is the final published version of the work, which wa...
We present a general method for solving the non--linear differential equation of monotonically incre...
Accurate mass-loss rates and terminal velocities from massive stars winds are essential to obtain sy...
The hottest and most massive stars (spectral types O, B, Wolf-Rayet) have strong stellar winds that ...
A subpopulation (~10%) of hot, luminous, massive stars have been revealed through spectropolarimetry...
Final published version of article. Also available via the publisher website at: http://dx.doi.org/...
[[abstract]]We construct steady, axisymmetric, numerical models of the sub-Alfvenic regions of cool ...
Axisymmetric stellar wind solutions are presented, obtained by numerically solving the ideal magneto...
This is the author accepted manuscript. The final version is available from the American Astronomica...
International audienceWe use two-dimensional axisymmetric magnetohydrodynamic simulations to compute...
Accurate mass-loss rate estimates are crucial keys in the study of wind properties of massive stars ...
SEE ParentDocumentRecord|Ntt=19860015036 "NASA. Marshall Space Flight Center Research Reports: 1985 ...
A model of a radiatively driven, magnetohydrodynamic wind flow confined in theequatorial plane of th...
We calculated the influence of the limb-darkened finite-disk correction factor in the theory of radi...
Accurate mass-loss rate estimates are crucial keys in the study of wind properties of massive stars ...
© 2012. The American Astronomical Society. This is the final published version of the work, which wa...
We present a general method for solving the non--linear differential equation of monotonically incre...
Accurate mass-loss rates and terminal velocities from massive stars winds are essential to obtain sy...
The hottest and most massive stars (spectral types O, B, Wolf-Rayet) have strong stellar winds that ...
A subpopulation (~10%) of hot, luminous, massive stars have been revealed through spectropolarimetry...
Final published version of article. Also available via the publisher website at: http://dx.doi.org/...
[[abstract]]We construct steady, axisymmetric, numerical models of the sub-Alfvenic regions of cool ...
Axisymmetric stellar wind solutions are presented, obtained by numerically solving the ideal magneto...
This is the author accepted manuscript. The final version is available from the American Astronomica...
International audienceWe use two-dimensional axisymmetric magnetohydrodynamic simulations to compute...
Accurate mass-loss rate estimates are crucial keys in the study of wind properties of massive stars ...