Add to ORKGWe study the complete merger of two massive stars inside a common envelope and the subsequent evolution of the merger products a rapidly rotating massive supergiant. Three qualitatively different types of mergers have been identified and investigated in detail, and the post-merger evolution has been followed to the immediate presupernova stage. The "quiet merger" case does not lead to significant changes in composition, and the star remains a red supergiant. In the case of a "moderate merger", the star May become a blue supergiant and end its evolution as a blue supergiant, depending on the core to total mass ratio (as may be appropriate for the progenitor of SN 1987A). In the case of the most effective "explosive merger", the merger produc...
Interactions between massive stars in binaries are thought to be responsible for much of the observe...
We employ N-body, smoothed particle hydrodynamic simulations, including detailed treatment of chemic...
In this paper we present new models of massive stars based on recent advancements in the theory of d...
We study the complete merger of two massive stars inside a common envelope and the subsequent evolut...
We study the slow merger of two massive stars inside a common envelope: The initial close binary sys...
We present the results of a systematic study of how the CNO abundances in the envelopes of massive s...
We study close encounters involving massive main sequence stars and the evolution of the exotic prod...
We study the nucleosynthesis and the induced mixing during the merging of massive stars inside a com...
As many young massive stars are found in close binaries, many core-collapse supernova progenitors ar...
We study the merging of massive stars inside a common envelope for binary systems consisting of a re...
About 10 per cent of stars more massive than ≈1.5M⊙ have strong, large-scale surface magnetic fields...
Collisions between stars occur naturally in star clusters. The outcome of such collisions is a new s...
Evidence suggests that the direct progenitor stars of some core-collapse supernovae (CCSNe) are lumi...
About ten per cent of 'massive' stars (those of more than 1.5 solar masses) have strong, large-scale...
Evidence suggests that the direct progenitor stars of some core-collapse supernovae (CCSNe) are lumi...
Interactions between massive stars in binaries are thought to be responsible for much of the observe...
We employ N-body, smoothed particle hydrodynamic simulations, including detailed treatment of chemic...
In this paper we present new models of massive stars based on recent advancements in the theory of d...
We study the complete merger of two massive stars inside a common envelope and the subsequent evolut...
We study the slow merger of two massive stars inside a common envelope: The initial close binary sys...
We present the results of a systematic study of how the CNO abundances in the envelopes of massive s...
We study close encounters involving massive main sequence stars and the evolution of the exotic prod...
We study the nucleosynthesis and the induced mixing during the merging of massive stars inside a com...
As many young massive stars are found in close binaries, many core-collapse supernova progenitors ar...
We study the merging of massive stars inside a common envelope for binary systems consisting of a re...
About 10 per cent of stars more massive than ≈1.5M⊙ have strong, large-scale surface magnetic fields...
Collisions between stars occur naturally in star clusters. The outcome of such collisions is a new s...
Evidence suggests that the direct progenitor stars of some core-collapse supernovae (CCSNe) are lumi...
About ten per cent of 'massive' stars (those of more than 1.5 solar masses) have strong, large-scale...
Evidence suggests that the direct progenitor stars of some core-collapse supernovae (CCSNe) are lumi...
Interactions between massive stars in binaries are thought to be responsible for much of the observe...
We employ N-body, smoothed particle hydrodynamic simulations, including detailed treatment of chemic...
In this paper we present new models of massive stars based on recent advancements in the theory of d...