Artículos de revistas
Co-existence and switching between fast and Omega-slow wind solutions in rapidly rotating massive stars
Fecha
2018Registro en:
Araya, I., Curé, M., Ud-Doula, A., Santillán, A., & Cidale, L. (2018). Co-existence and switching between fast and Ω-slow wind solutions in rapidly rotating massive stars. Monthly Notices of the Royal Astronomical Society, 477(1), 755-765.
0035-8711
1365-2966
DOI: 10.1093/mnras/sty678
Autor
Araya, I. [Univ Mayor, Fac Ciencias, Nucleo Matemat Fis & Estadist, Santiago, Chile]
Cure, M.
ud-Doula, A.
Santillan, A.
Cidale, L.
Institución
Resumen
Most radiation-driven winds of massive stars can be modelled with m-CAK theory, resulting in the so-called fast solution. However, the most rapidly rotating stars among them, especially when the rotational speed is higher than similar to 75 per cent of the critical rotational speed, can adopt a different solution, the so-called Omega-slow solution, characterized by a dense and slow wind. Here, we study the transition region of the solutions where the fast solution changes to the Omega-slow solution. Using both time-steady and time-dependent numerical codes, we study this transition region for various equatorial models of B-type stars. In all cases, in a certain range of rotational speeds we find a region where the fast and the Omega-slow solution can coexist. We find that the type of solution obtained in this co-existence region depends stongly on the initial conditions of our models. We also test the stability of the solutions within the co-existence region by performing base-density perturbations in the wind. We find that under certain conditions, the fast solution can switch to the Omega-slow solution, or vice versa. Such solution-switching may be a possible contributor of material injected into the circumstellar environment of Be stars, without requiring rotational speeds near critical values.