MEGATRON: the impact of non-equilibrium effects and local radiation fields on the circumgalactic medium at cosmic noon
(2025)
MEGATRON: how the first stars create an iron metallicity plateau in the smallest dwarf galaxies
(2025)
MEGATRON: reproducing the diversity of high-redshift galaxy spectra with cosmological radiation hydrodynamics simulations
(2025)
Supermassive Black Hole Growth in Hierarchically Merging Nuclear Star Clusters
The Astrophysical Journal American Astronomical Society 991:1 (2025) 58
Abstract:
Supermassive black holes are prevalent at the centers of massive galaxies, and their masses scale with galaxy properties, increasing evidence suggesting that these trends continue to low stellar masses. Seeds are needed for supermassive black holes, especially at the highest redshifts explored by the James Webb Space Telescope. We study the hierarchical merging of galaxies via cosmological merger trees and argue that the seeds of supermassive black holes formed in nuclear star clusters via stellar black hole mergers at early epochs. Observable tracers include intermediate-mass black holes, nuclear star clusters, and early gas accretion in host dwarf galaxies, along with a potentially detectable stochastic gravitational-wave background, ejection of intermediate and supermassive black holes, and consequences of a significant population of early tidal disruption events and extreme mass ratio inspirals.Cosmological simulations of the same spiral galaxy: satellite properties, the role of baryonic physics and star formation history in shaping dark matter cores/cusps
(2025)