Characteristics of solar-like oscillations of secondary red clump stars

Abstract

We calculated the populations of core-helium-burning (CHeB) stars and found that the secondary red clump (SRC) stars can form an SRC peak in the distributions of the frequency of maximum seismic amplitude (max) and mean large-frequency separation () of CHeB stars when metallicity Z ≥ 0.02. The max and of CHeB stars are dependent not only on He core mass but on H-shell burning. The SRC peak is composed of the CHeB stars with mass roughly between the critical mass MHef and MHef+0.2 while He core mass is between about 0.33 and 0.36 Msun. The location of the SRC peak can be affected by the mixing-length parameter α, metallicity Z, and overshooting parameter δov. A decrease in α or increase in Z or δov leads to a movement of the SRC peak towards a lower frequency. However, the change in Z and α only slightly affects the value of MHef but the variation in δov can significantly affects the value of MHef. Thus the SRC peak might aid in determining the value of MHef and calibrating δov. In addition, the effects of convective acceleration of SRC stars and the max of `semi-degenerate' stars decreasing with mass result in the appearance of a shoulder between about 40 and 50 μhz in the distribution. However, the convective acceleration of stars with M < MHef leads to the deficit in the max distribution between about 9 and 20 μhz. Moreover, the value of the parameter b of the relation between max and for the populations with M > MHef is obviously larger than that for the populations with M < .