Add to ORKGAccurate mass-loss rate estimates are crucial keys in the study of wind properties of massive stars and for testing different evolutionary scenarios. From a theoretical point of view, this implies solving a complex set of differential equations in which the radiation field and the hydrodynamics are strongly coupled. The use of an analytical expression to represent the radiation force and the solution of the equation of motion has many advantages over numerical integrations. Therefore, in this work, we present an analytical expression as a solution of the equation of motion for radiation-driven winds in terms of the force multiplier parameters. This analytical expression is obtained by employing the line acceleration expression given by Vill...
Context. Mass loss through radiatively line-driven winds is central to our understanding of the evol...
Context. Mass loss from massive stars forms an important aspect of the evolution of massive stars, a...
The definitive version is available at www.blackwell-synergy.com. Copyright Blackwell Publishing DOI...
Accurate mass-loss rate estimates are crucial keys in the study of wind properties of massive stars ...
Accurate mass-loss rates and terminal velocities from massive stars winds are essential to obtain sy...
Massive stars present strong stellar winds that are described by the radiation driven wind theory. A...
Stellar winds are an important aspect of our understanding of the evolution of massive stars and the...
We calculated the influence of the limb-darkened finite-disk correction factor in the theory of radi...
The theory of radiation-driven winds succeeded in describing terminal velocities and mass-loss rates...
Context. Radiation-driven mass loss plays a key role in the life cycles of massive stars. However, b...
We compare models of line-driven winds from accretion discs and single spherical stars. We look at t...
We present a general method for solving the non--linear differential equation of monotonically incre...
SEE ParentDocumentRecord|Ntt=19860015036 "NASA. Marshall Space Flight Center Research Reports: 1985 ...
Massive stars drive powerful, supersonic winds via the radiative momentum associated with the therma...
In the scenario of rotating radiation-driven wind theory for massive stars, three types of stationar...
Context. Mass loss through radiatively line-driven winds is central to our understanding of the evol...
Context. Mass loss from massive stars forms an important aspect of the evolution of massive stars, a...
The definitive version is available at www.blackwell-synergy.com. Copyright Blackwell Publishing DOI...
Accurate mass-loss rate estimates are crucial keys in the study of wind properties of massive stars ...
Accurate mass-loss rates and terminal velocities from massive stars winds are essential to obtain sy...
Massive stars present strong stellar winds that are described by the radiation driven wind theory. A...
Stellar winds are an important aspect of our understanding of the evolution of massive stars and the...
We calculated the influence of the limb-darkened finite-disk correction factor in the theory of radi...
The theory of radiation-driven winds succeeded in describing terminal velocities and mass-loss rates...
Context. Radiation-driven mass loss plays a key role in the life cycles of massive stars. However, b...
We compare models of line-driven winds from accretion discs and single spherical stars. We look at t...
We present a general method for solving the non--linear differential equation of monotonically incre...
SEE ParentDocumentRecord|Ntt=19860015036 "NASA. Marshall Space Flight Center Research Reports: 1985 ...
Massive stars drive powerful, supersonic winds via the radiative momentum associated with the therma...
In the scenario of rotating radiation-driven wind theory for massive stars, three types of stationar...
Context. Mass loss through radiatively line-driven winds is central to our understanding of the evol...
Context. Mass loss from massive stars forms an important aspect of the evolution of massive stars, a...
The definitive version is available at www.blackwell-synergy.com. Copyright Blackwell Publishing DOI...