Andrew Bunker

No Evidence for a Significant Evolution of M • – M. Relation in Massive Galaxies up to z ∼ 4

The Astrophysical Journal American Astronomical Society 978:1 (2024) 98

Authors:

Yang Sun, Jianwei Lyu, George H Rieke, Zhiyuan Ji, Fengwu Sun, Yongda Zhu, Andrew J Bunker, Phillip A Cargile, Chiara Circosta, Francesco D’Eugenio, Eiichi Egami, Kevin Hainline, Jakob M Helton, Pierluigi Rinaldi, Brant E Robertson, Jan Scholtz, Irene Shivaei, Meredith A Stone, Sandro Tacchella, Christina C Williams, Christopher NA Willmer, Chris Willott

Abstract:

Over the past two decades, tight correlations between black hole masses (M•) and their host galaxy properties have been firmly established for massive galaxies (with stellar mass log(M*/M⊙)≳10 ) at low-z (z < 1), indicating coevolution of supermassive black holes and galaxies. However, the situation at high-z, especially beyond cosmic noon (z ≳ 2.5), is controversial. With a combination of JWST Near Infrared Camera (NIRCam)/wide field slitless spectroscopy (WFSS) from FRESCO, CONGRESS and deep multiband NIRCam/image data from JADES in the GOODS fields, we study the black-hole-to-galaxy mass relation at z ∼ 1–4. After identifying 18 broad-line active galactic nuclei (AGNs) at 1 < z < 4 (with 8 at z > 2.5) from the WFSS data, we measure their black hole masses based on broad near-infrared lines (Paα, Paβ, and He i λ10833 Å), and constrain their stellar masses from AGN-galaxy image decomposition or spectral energy distribution decomposition. Taking account of the observational biases, the intrinsic scatter of the M•−M* relation, and the errors in mass measurements, we find no significant difference in the M•/M* ratio for 2.5 < z < 4 compared to that at lower redshifts (1 < z < 2.5), suggesting no evolution of the M•−M* relation at log(M*/M⊙)≳10 up to z ∼ 4.

The Relation between AGN and Host-galaxy Properties in the JWST Era. I. Seyferts at Cosmic Noon are Obscured and Disturbed

The Astrophysical Journal American Astronomical Society 978:1 (2024) 74

Authors:

Nina Bonaventura, Jianwei Lyu, George H Rieke, Stacey Alberts, Christopher NA Willmer, Pablo G Pérez-González, Andrew J Bunker, Meredith Stone, Francesco D’Eugenio, Christina C Williams, Michael V Maseda, Chris J Willott, Zhiyuan Ji, William M Baker, Stefano Carniani, Stephane Charlot, Jacopo Chevallard, Emma Curtis-Lake, Daniel J Eisenstein, Kevin Hainline, Ryan Hausen, Erica J Nelson, Marcia J Rieke, Brant Robertson

Abstract:

The morphology of a galaxy reflects the mix of physical processes occurring within and around it, offering indirect clues to its formation and evolution. We apply both visual classification and computer vision to test the suspected connection between galaxy mergers and active galactic nucleus (AGN) activity, as evidenced by a close/merging galaxy pair, or tidal features surrounding an apparently singular system. We use JADES JWST/NIRCam imagery of a complete, multiwavelength AGN sample recently expanded with JWST/Mid-Infrared Instrument (MIRI) photometry. This 0.9–25 μm data set enables constraints on the host-galaxy morphologies of a broad range of AGN beyond z ∼ 1, including heavily obscured examples missing from previous studies. Our primary AGN sample consists of 243 lightly to highly obscured X-ray-selected AGN and 138 presumed Compton-thick, mid-infrared-bright/X-ray-faint AGN revealed by MIRI. Utilizing the shape asymmetry morphology indicator, AS, as the metric for disturbance, we find that 88% of the Seyferts sampled are strongly spatially disturbed (AS > 0.2). The experimental design we employ reveals a ≳3σ obscuration–merger (NH–AS) correlation at 0.6 < z < 2.4, and also recovers a physical distinction between the X-ray- and mid-IR-detected AGN suggestive of their link to a common evolutionary scenario. Placing the observed pattern of disturbances in the context of the other average host-galaxy properties, we conclude that mergers are common among obscured AGN. This finding presents tension with the leading model on AGN fueling that requires Seyfert AGN with subquasar luminosities (Lbol < 1045 erg s−1) to evolve only through nonmerger mechanisms.

GA-NIFS: interstellar medium properties and tidal interactions in the evolved massive merging system B14-65666 at z = 7.152

(2024)

Authors:

Gareth C Jones, Rebecca Bowler, Andrew J Bunker, Santiago Arribas, Stefano Carniani, Stephane Charlot, Michele Perna, Bruno Rodríguez Del Pino, Hannah Übler, Chris J Willott, Jacopo Chevallard, Giovanni Cresci, Eleonora Parlanti, Jan Scholtz, Giacomo Venturi

A dormant overmassive black hole in the early Universe

Nature Nature Research 636:8043 (2024) 594-597

Authors:

Ignas Juodžbalis, Roberto Maiolino, William M Baker, Sandro Tacchella, Jan Scholtz, Francesco D’Eugenio, Joris Witstok, Raffaella Schneider, Alessandro Trinca, Rosa Valiante, Christa DeCoursey, Mirko Curti, Stefano Carniani, Jacopo Chevallard, Anna de Graaff, Santiago Arribas, Jake S Bennett, Martin A Bourne, Andrew J Bunker, Stéphane Charlot, Brian Jiang, Sophie Koudmani, Michele Perna, Brant Robertson

Abstract:

Recent observations have found a large number of supermassive black holes already in place in the first few hundred million years after the Big Bang, many of which seem to be overmassive relative to their host galaxy stellar mass when compared with local relation1, 2, 3, 4, 5, 6, 7, 8–9. Several different models have been proposed to explain these findings, ranging from heavy seeds to light seeds experiencing bursts of high accretion rate10, 11, 12, 13, 14, 15–16. Yet, current datasets are unable to differentiate between these various scenarios. Here we report the detection, from the JADES survey, of broad Hα emission in a galaxy at z = 6.68, which traces a black hole with a mass of about 4 × 108M⊙ and accreting at a rate of only 0.02 times the Eddington limit. The black hole to host galaxy stellar mass ratio is about 0.4—that is, about 1,000 times above the local relation—whereas the system is closer to the local relations in terms of dynamical mass and velocity dispersion of the host galaxy. This object is most likely an indication of a much larger population of dormant black holes around the epoch of reionization. Its properties are consistent with scenarios in which short bursts of super-Eddington accretion have resulted in black hole overgrowth and massive gas expulsion from the accretion disk; in between bursts, black holes spend most of their life in a dormant state.

Galaxy Activity, Torus, and Outflow Survey (GATOS). Black hole mass estimation using machine learning

Astronomy & Astrophysics EDP Sciences (2024)

Authors:

R Poitevineau, F Combes, S Garcia-Burillo, D Cornu, A Alonso Herrero, C Ramos Almeida, A Audibert, E Bellocchi, PG Boorman, AJ Bunker, R Davies, T Díaz-Santos, I García-Bernete, B García-Lorenzo, O González-Martín, EKS Hicks, SF Hönig, LK Hunt, M Imanishi, M Pereira-Santaella, C Ricci, D Rigopoulou, DJ Rosario, D Rouan, M Villar Martin, M Ward