Galaxy formation and evolution

The galaxy–environment connection revealed by constrained simulations

Monthly Notices of the Royal Astronomical Society Oxford University Press 546:3 (2026) stag108

Authors:

Catherine Gallagher, Tariq Yasin, Richard Stiskalek, Harry Desmond, Matt J Jarvis

Abstract:

The evolution of galaxies is known to be connected to their position within the large-scale structure and their local environmental density. We investigate the relative importance of these using the underlying dark matter density field extracted from the Constrained Simulations in BORG (CSiBORG) suite of constrained cosmological simulations. We define cosmic web environment through both dark matter densities averaged on a scale up to 16 Mpc , and through cosmic web location identified by applying DisPerSE to the CSiBORG haloes. We correlate these environmental measures with the properties of observed galaxies in large surveys using optical data (from the NASA-Sloan Atlas) and 21-cm radio data (from ALFALFA). We find statistically significant correlations between environment and colour, neutral hydrogen gas () mass fraction, star formation rate, and Sérsic index. Together, these correlations suggest that bluer, star-forming, rich, and disc-type galaxies tend to reside in lower density areas, further from filaments, while redder, more elliptical galaxies with lower star formation rates tend to be found in higher density areas, closer to filaments. We find analogous trends with the quenching of galaxies, but notably find that the quenching of low-mass galaxies has a greater dependence on environment than the quenching of high-mass galaxies. We find that the relationship between galaxy properties and the environmental density is stronger than that with distance to filament, suggesting that environmental density has a greater impact on the properties of galaxies than their location within the larger-scale cosmic web.

Extragalactic planetary nebulae -- tracers of kinematics and stellar populations out to 100 Mpc

(2026)

Authors:

Johanna Hartke, Magda Arnaboldi, Claudia Pulsoni, Souradeep Bhattacharya, Martin Bureau, Enrico Congiu, Guy Flint, Ortwin Gerhard, Martin Roth, Azlizan Soemitro, Chiara Spiniello, Lucas Valenzuela, Peter Weilbacher, Nancy Yang

JADES: comprehensive census of broad-line AGN from reionization to cosmic noon revealed by JWST

Monthly Notices of the Royal Astronomical Society Oxford University Press 546:3 (2026) stag086

Authors:

Ignas Juodžbalis, Roberto Maiolino, William M Baker, Emma Curtis Lake, Jan Scholtz, Francesco D’Eugenio, Bartolomeo Trefoloni, Yuki Isobe, Sandro Tacchella, Andrew J Bunker, Stefano Carniani, Stéphane Charlot, Gareth C Jones, Eleonora Parlanti, Michele Perna, Pierluigi Rinaldi, Brant Robertson, Hannah Übler, Giacomo Venturi, Chris Willott

Abstract:

The depth and coverage of the first years of James Webb Space Telescope observations have revealed low-luminosity active galactic nuclei (AGN) across a wide redshift range, shedding light on black hole (BH) assembly and feedback. We present our spectroscopic sample of 34 Type 1 AGN obtained from JADES survey data and spanning . Our sample of AGN probes a BH mass range of M at bolometric luminosities down to erg s. Most of these AGN are hosted in low-mass ( M) galaxies and are overmassive relative to the local relation, while remaining consistent with the local – relation. The wide redshift range provided by our sample allows us to trace the emergence of local – scaling relation across cosmic time. Additionally, we explore the capability of narrow-line diagnostics in identifying Type 2 AGN and find that a significant fraction of our AGN would be missed by them due to low metallicity or lack of high-energy ionizing photons. We explore the UV luminosity function of AGN and their hosts and find that it is subject to significant cosmic variance and is also dependent on the AGN bolometric luminosity. Finally, we show that the electron scattering scenario recently proposed to explain broad Balmer lines is untenable on multiple grounds showing that there is no evidence of significant BH mass overestimation.

Resonant locking between binary systems induced by gravitational waves

Physical Review D American Physical Society (APS) 113:2 (2026) 023040

Authors:

Charlie Sharpe, Yonadav Barry Ginat, Zeyuan Xuan, Bence Kocsis

Abstract:

The interaction of gravitational waves (GWs) with matter is thought to be typically negligible in the Universe. We identify an exception in the case of resonant interactions, where GWs emitted by a background binary system, such as an inspiraling supermassive black hole (SMBH) binary, cause a resonant response in a stellar-mass foreground binary and the frequencies of the two systems become, and remain, synchronized. We point out that this previously unexplored dynamical phenomenon is not only possible, but can lead to $\mathcal{O}(30)$ binary systems becoming resonantly locked in the host galaxy of merging SMBHs of mass ${10}^{8.5-11}{M}_{\odot }$ , each of which has a significantly reduced merger time. We predict $\mathcal{O}({10}^{10})$ binary systems have been locked in the Universe’s history. Resonant locking could be detected through anomalous inspiral of binary systems.

Calibrating Mid-Infrared Emission Features As Diagnostics of Star Formation in Infrared-Luminous Galaxies via Radiative Transfer Modeling

(2026)

Authors:

L Robinson, D Farrah, A Efstathiou, A Engholm, E Hatziminaoglou, M Joyce, V Lebouteiller, S Petty, LK Pitchford, J Afonso, D Clements, M Lacy, C Pearson, D Rigopoulou, M Rowan-Robinson, L Wang