http://arxiv.org/abs/2304.09350
The collapse of massive stars is one of the most-studied paths to black hole formation. In this chapter, we review black hole formation during the collapse of massive stars in the broader context of single and binary stellar evolution and the theory of supernova explosions. We provide a concise overview of the evolutionary channels that may lead to black hole formation — the classical route of iron core collapse, collapse due to pair instability in very massive stars, and the hypothetical scenario of supermassive star collapse. We then review the current understanding of the parameter space for black hole formation and black hole birth properties that has emerged from theoretical and computational modelling of supernova explosions and transient observations. Finally, we discuss what the intricate interplay between stellar evolution, stellar explosions, and binary interactions implies for the formation of stellar-mass black holes.
A. Heger, B. Müller and I. Mandel
Thu, 20 Apr 23
51/57
Comments: 53 pages, 9 figures. This chapter is the pre-print of the version currently in production. Please cite this chapter as the following: A.Heger, B. M\”uller, and I. Mandel. “Black holes as the end state of stellar evolution: Theory and simulations,” in The Encyclopedia of Cosmology (Set 2): Black Holes, edited by Z. Haiman (World Scientific, New Jersey, 2023)