Single Rotating Stars and the Formation of Bipolar Planetary Nebula

García-Segura, G.; Villaver, E.; Langer, N.; Yoon, S.-C.; Manchado, A.
Referencia bibliográfica

The Astrophysical Journal, Volume 783, Issue 2, article id. 74, 8 pp. (2014).

Fecha de publicación:
3
2014
Número de autores
5
Número de autores del IAC
1
Número de citas
65
Número de citas referidas
60
Descripción
We have computed new stellar evolution models that include the effects of rotation and magnetic torques under different hypotheses. The goal is to test whether a single star can sustain the rotational velocities needed in the envelope for magnetohydrodynamical(MHD) simulations to shape bipolar planetary nebulae (PNe) when high mass-loss rates take place. Stellar evolution models with main sequence masses of 2.5 and 5 M ☉ and initial rotational velocities of 250 km s–1 have been followed through the PNe formation phase. We find that stellar cores have to be spun down using magnetic torques in order to reproduce the rotation rates observed for white dwarfs. During the asymptotic giant branch phase and beyond, the magnetic braking of the core has a practically null effect on increasing the rotational velocity of the envelope since the stellar angular momentum is efficiently removed by the wind. We have also tested the best possible case scenarios in rather non-physical contexts to give enough angular momentum to the envelope. We find that we cannot get the envelope of a single star to rotate at the speeds needed for MHD simulations to form bipolar PNe. We conclude that single stellar rotators are unlikely to be the progenitors of bipolar PNe under the current MHD model paradigm.
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