Adrian T. Potter, Christopher A. Tout, Ines Brott
Published 2012-04-09Version 1
Rotation has a number of important effects on the evolution of stars. Apart from structural changes because of the centrifugal force, turbulent mixing and meridional circulation caused by rotation can dramatically affect a star's chemical evolution. This leads to changes in the surface temperature and luminosity as well as modifying its lifetime. Observationally rotation decreases the surface gravity, causes enhanced mass loss and leads to surface abundance anomalies of various chemical isotopes. The replication of these physical effects with simple stellar evolution models is very difficult and has resulted in the use of numerous different formulations to describe the physics. Using stellar evolution calculations based on several physical models we discuss the features of the resulting simulated stellar populations which can help to distinguish between the models.
Comments: 14 pages, 13 figures. Accepted for publication in MNRAS
The H$α$ emission of nearby M dwarfs and its relation to stellar rotation
Time-dependent, long-term hydrodynamic simulations of the inner protoplanetary disk II: The importance of stellar rotation
One size does not fit all: Evidence for a range of mixing efficiencies in stellar evolution calculations
![QR code for arXiv:1204.1973 [astro-ph.SR]](http://oss.arxitics.com/images/favicon.svg)