Abstract
We present a detailed study of the evolution of massive stars of masses 15, 20, 25, and 30 M☉ assuming solar-like initial chemical composition. The stellar sequences were evolved through the advanced burning phases up to the end of core oxygen burning. We present a careful analysis of the physical characteristics of the stellar models. In particular, we investigate the effect of the still-unsettled reaction 12C(α,γ)16O on the advanced evolution by using recent compilations of this rate. We find that this rate has a significant impact on the evolution not only during the core helium burning phase but also during the late burning phases, especially the shell carbon burning. We have also considered the effect of different treatments of convective instability based on the Ledoux criterion in regions of varying molecular weight gradient during the hydrogen- and helium-burning phases. We compare our results with other investigations whenever available. Finally, our present study constitutes the basis of analyzing the nucleosynthesis processes in massive stars. In particular, we will present a detailed analysis of the s-process in a forthcoming paper.
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