http://arxiv.org/abs/2304.11541
Massive black holes are fundamental constituents of our cosmos, from the Big Bang to today. Understanding their formation from cosmic dawn, their growth, and the emergence of the first, rare quasars in the early Universe remains one of our greatest theoretical and observational challenges. Hydrodynamic cosmological simulations self-consistently combine the processes of structure formation at cosmological scales with the physics of smaller, galaxy scales. They capture our most realistic understanding of massive black holes and their connection to galaxy formation and have become the primary avenue for theoretical research in this field. The space-based gravitational wave interferometer, LISA, will open up new investigations into the dynamical processes involving massive black holes. Multi-messenger astrophysics brings new exciting prospects for tracing the origin, growth and merger history of massive black holes across cosmic ages.
T. Matteo, D. Angles-Alcazar and F. Shankar
Tue, 25 Apr 23
59/72
Comments: 77 pages, 20 figures, This chapter is the preprint of the version currently in production. Please cite this chapter as the following: T.DiMatteo, D. Angles-Alcazar, and F. Shankar. Massive black holes in galactic nuclei: Theory and simulations, in The Encyclopedia of Cosmology (Set 2): Black Holes, edited by Z. Haiman (World Scientific, New Jersey, 2023)
You must be logged in to post a comment.