Abstract
We present new stellar evolutionary sequences of very metal-rich stars evolved with the Monash Stellar Structure code and with mesa. The Monash models include masses of 1-8 M with metallicities Z = 0.04 to Z = 0.1 and are evolved from the main sequence to the thermally pulsing asymptotic giant branch (TP-AGB). These are the first Z = 0.1 AGB models in the literature. The mesa models include intermediate-mass models with Z = 0.06 to Z = 0.09 evolved to the onset of the TP phase. Third dredge-up only occurs in intermediate-mass models Z ≤ 0.08. Hot bottom burning shows a weaker dependence on metallicity, with the minimum mass increasing from 4.5 M for Z = 0.014 to ≈5.5 M for Z = 0.04, 6 M for 0.05 ≤ Z ≤ 0.07 and above 6.5 M for Z ≥ 0.08. The behaviour of the Z = 0.1 models is unusual; most do not experience He-shell instabilities owing to rapid mass-loss on the early part of the AGB. Turning off mass-loss produces He-shell instabilities, however thermal pulses are weak and result in no TDU. The minimum mass for carbon ignition is reduced from 8 M for Z = 0.04 to 7 M for Z = 0.1, which implies a reduction in the minimum mass for core-collapse supernovae. mesa models of similarly high metallicity (Z = 0.06-0.09) show the same lowering of the minimum mass for carbon ignition: carbon burning is detected in a 6 M model at the highest metallicity (Z = 0.09) and in all 7 M models with Z ≥ 0.06. This demonstrates robustness of the lowered carbon burning threshold across codes.
Original language | English |
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Pages (from-to) | 4430-4447 |
Number of pages | 18 |
Journal | Monthly Notices of the Royal Astronomical Society |
Volume | 509 |
Issue number | 3 |
DOIs | |
Publication status | Published - 1 Jan 2022 |