The effects of stellar population synthesis on the distributions of the asteroseismic observables max and of red-clump stars

Abstract

The distributions of the frequencies of the maximum oscillation Power (max) and the large frequency separation ( ) of red giant stars observed by CoRoT have a dominant peak. Miglio et al. (2009) identified that the stars are red-clump stars. Using stellar population synthesis method, we studied the effects of Reimers mass loss, binary interactions, star formation rate and the mixing-length parameter on the distributions of the max and of red-clump stars. The Reimers mass loss can result in an increase in the max and of old population which lost a considerable amount of mass. However, it leads to a small decrease in those of middle-age population which lost a little bit of mass. Furthermore, a high mass-loss rate impedes the low-mass and low-metal stars evolving into core-helium burning (CHeB) stage. Both Reimers mass loss and star formation rate mainly affect the number of CHeB stars with max and , but hardly affect the peak locations of max and . Binary interactions also can lead to an increase or decrease in the max and of some stars. However, the fraction of CHeB stars undergoing binary interactions is very small in our simulations. Therefore, the peak locations are also not affected by binary interactions. The non-uniform distributions of max and are mainly caused by the most of red-clump stars having an approximate radius rather than mass. The radius of red-clump stars decreases with increasing the mixing-length parameter. The peak locations of max and can, thus, be affected by the mixing-length parameter.