JADES: the chemical enrichment pattern of distant galaxies – α enhancement, silicon depletion, and iron enhancement

Monthly Notices of the Royal Astronomical Society Oxford University Press 547:3 (2026) stag123

Authors:

Yuki Isobe, Roberto Maiolino, Xihan Ji, Francesco D’Eugenio, Charlotte Simmonds, Jan Scholtz, Ignas Juodžbalis, Aayush Saxena, Joris Witstok, Chiaki Kobayashi, Irene Vanni, Stefania Salvadori, Kuria Watanabe, Stephanie Monty, Vasily Belokurov, Anna Feltre, William McClymont, Sandro Tacchella, Mirko Curti, Hannah Übler, Stéphane Charlot, Andrew J Bunker, Jacopo Chevallard, Emma Curtis-Lake, Nimisha Kumari

Abstract:

We present gas-phase abundances of carbon (C), -elements (O, Ne, Si, and Ar), and iron (Fe) obtained from stacked spectra of high-z star-forming galaxies with the deep Near Infrared Spectrograph medium-resolution data from the James Webb Space Telescope Advanced Deep Extragalactic Survey. Our 564 sources at –7 have a median stellar mass of and a median star-formation rate of , placing them close to the star-formation main sequence. We find that the stacked spectrum of all our 564 sources has relatively low , moderate , and low values at a low gas-phase metallicity of (), suggesting dominant yields of core-collapse supernovae evolved from massive stars. The detection of a weak [Si iii] emission line in our stacked spectrum provides a silicon-to-oxygen abundance ratio of , which is lower than that of stars in the Milky Way disc and lower than expected by chemical evolution models, suggesting silicon depletion on to dust grains. Likewise, this Si/O value is lower than that we newly derive for two individual galaxies (GN-z11 and RXCJ2248) with negligible dust attenuation. By performing spectral stacking in bins of , star-formation rate (SFR), specific SFR (sSFR), and ultraviolet continuum slope , we identify [Fe iii] line detections in the high-sSFR bin and the blue- bin, both of which exhibit supersolar Fe/O ratios, while their C/O, Ar/O, and Si/O ratios are comparable to those of the all-sources stack. Our findings support a chemically young gas composition with rapid dust depletion in the general population of high-z star-forming galaxies, while raising the possibility of anomalous, selective Fe/O enhancement at the very early epoch of star formation.

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.

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 O ( 30 ) binary systems becoming resonantly locked in the host galaxy of merging SMBHs of mass 10 8.5 11 M , each of which has a significantly reduced merger time. We predict O ( 10 10 ) binary systems have been locked in the Universe’s history. Resonant locking could be detected through anomalous inspiral of binary systems.

Exploring the quasar disc-wind-jet connection with LoTSS and SDSS

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) (2026) stag065

Authors:

Charlotte L Jackson, James H Matthews, Imogen H Whittam, Matt J Jarvis, Matthew J Temple, Amy L Rankine, Paul C Hewett

Abstract:

Abstract We investigate the relationship between disc winds, radio jets, accretion rates and black hole masses of a sample of ∼100k quasars at z ≈ 2. Combining spectra from the 17th data release of the Sloan Digital Sky Survey (SDSS) with radio fluxes from the 2nd data release of the Low Frequency ARray (LOFAR) Two-Meter Sky Survey (LoTSS), we statistically characterise a radio loud and radio quiet population using a two-component Gaussian Mixture model, and perform population matching in black hole mass and Eddington fraction. We determine how the fraction of radio loud sources changes across this parameter space, finding that jets are most efficiently produced in quasars with either a very massive central black hole (MBH > 109M⊙) or one that is rapidly accreting (λEdd > 0.3). We also show that there are differences in the blueshift of the $\textrm {C}\, \rm \small {IV}$ λ1549Å line and the equivalent width of the $\rm {He}\, \rm \small {II}$ λ1640Å line in radio loud and radio quiet quasars that persist even after accounting for differences in the mass and accretion rate of the central black hole. Generally, we find an anti-correlation between the inferred presence of disc winds and jets, which we suggest is mediated by differences in the quasars’ spectral energy distributions. The latter result is shown through the close coupling between tracers of wind kinematics and the ionising flux– which holds for both radio loud and radio quiet sources, despite differences between their emission line properties– and is hinted at by a different Baldwin effect in the two populations.

On the origins of oxygen: ALMA and JWST characterise the multi-phase, metal-enriched, star-bursting medium within a ‘normal’ z > 11 galaxy

The Open Journal of Astrophysics Maynooth University 9 (2026)

Authors:

Joris Witstok, Renske Smit, William M Baker, Pierluigi Rinaldi, Kevin N Hainline, Hiddo SB Algera, Santiago Arribas, Tom JLC Bakx, Andrew J Bunker, Stefano Carniani, Stéphane Charlot, Jacopo Chevallard, Mirko Curti, Emma Curtis-Lake, Daniel J Eisenstein, Kasper E Heintz, Jakob M Helton, Gareth C Jones, Roberto Maiolino, Michael V Maseda, Pablo G Pérez-González, Clara L Pollock, Brant E Robertson, Aayush Saxena, Jan Scholtz, Irene Shivaei, Fengwu Sun, Sandro Tacchella, Hannah Übler, Darach Watson, Chris J Willott, Zihao Wu

Abstract:

The unexpectedly high abundance of galaxies at z > 11 revealed by JWST has sparked a debate on the nature of early galaxies and the physical mechanisms regulating their formation. The Atacama Large Millimeter/submillimeter Array (ALMA) has begun to provide vital insights on their gas and dust content, but so far only for extreme ‘blue monsters’. Here we present new, deep ALMA observations of JADES-GS-z11-0, a more typical (sub- L * ) z > 11 galaxy that bridges the discovery space of JWST and the Hubble Space Telescope. These data confirm the presence of the [O III] 88 μ m line at 4.5 σ significance, precisely at the redshift of several faint emission lines previously seen with JWST/NIRSpec, while the underlying dust continuum remains undetected ( F ν < 9.0 μ J y ), implying an obscured star formation rate (SFR) of SFR IR 6 M y r 1 and dust mass of M dust 1.0 × 10 6 M (all 3 σ ). The accurate ALMA redshift of z [O III] = 11.1221 ± 0.0006 ( 5 × refined over NIRSpec) helps confirm that redshifts measured purely from the Lyman- α break, even spectroscopically, should properly take into account the effects of potential damped Lyman- α absorption (DLA) systems to avoid systematic overestimates of up to Δ z 0.5 . The [O III] 88 μ m luminosity of L [O III] = ( 1.1 ± 0.3 ) × 10 8 L , meanwhile, agrees well with the scaling relation for local metal-poor dwarfs given the SFR measured by NIRCam, NIRSpec, and MIRI. The spatially resolved MIRI and ALMA emission also underscores that JADES-GS-z11-0 is likely to consist of two low-mass components that are undergoing strong bursts of star formation yet are already pre-enriched in oxygen ( 30 % solar), only 400 Myr after the Big Bang.