English

Triggering Active Galactic Nuclei in Hierarchical Galaxy Formation: Disk instability vs. Interactions

Astrophysics of Galaxies 2015-06-22 v2

Abstract

Using a semi analytic model for galaxy formation we investigate the effects of Black Hole accretion triggered by disk instabilities (DI) in isolated galaxies on the evolution of AGN. Specifically, we took on, developed and expanded the Hopkins & Quataert (2011) model for the mass inflow following disk perturbations, and compare the corresponding evolution of the AGN population with that arising in a scenario where galaxy interactions trigger AGN (IT mode). We extended and developed the DI model by including different disk surface density profiles, to study the maximal contribution of DI to the evolution of the AGN population. We obtained the following results: i) for luminosities corresponding to M145026M_{1450}\gtrsim -26 the DI mode can provide the BH accretion needed to match the observed AGN luminosity functions up to z4.5z \approx 4.5; in such a luminosity range and redshift, it can compete with the IT scenario as the main driver of cosmological evolution of AGN; ii) The DI scenario cannot provide the observed abundance of high-luminosity QSO with M145026M_{1450}\lesssim -26 AGN, as well as the abundance of high-redhshift z4.5z \approx 4.5 QSOs with M145024M_{1450}\lesssim -24, while the IT scenario provides an acceptable match up to z6z \approx 6, as found in our earliest works; iii) The dispersion of the distributions of Eddington ratio for low- and intermediate-luminosity AGN (bolometric LAGNL_{AGN} = 104310^{43} - 104510^{45} erg/s) is predicted to be much smaller in the DI scenario compared to the IT mode; iv) The above conclusions are robust with respect to the explored variants of the Hopkins & Quataert (2011) model. We discuss the physical origin of our findings, and how it is possible to pin down the dominant fueling mechanism in the low-intermediate luminosity range M145026M_{1450}\gtrsim -26 where both the DI and the IT modes are viable candidates as drivers for the AGN evolution.

Keywords

Cite

@article{arxiv.1406.7740,
  title  = {Triggering Active Galactic Nuclei in Hierarchical Galaxy Formation: Disk instability vs. Interactions},
  author = {N. Menci and M. Gatti and F. Fiore and A. Lamastra},
  journal= {arXiv preprint arXiv:1406.7740},
  year   = {2015}
}

Comments

Accepted for publication in Astronomy & Astrophysics, 24 pages, 8 figures; updated references

R2 v1 2026-06-22T04:51:21.528Z