Litcius/Paper detail

The Dichotomy in the Nuclear and Host-galaxy Properties of High-redshift Quasars

Ruancun Li, Luis C. Ho, Chang-Hao Chen

2026The Astrophysical Journal6 citationsDOIOpen Access PDF

Abstract

Abstract The early growth of high-redshift quasars and their host galaxies raises critical questions about their cosmic evolution. We exploit the angular resolution and sensitivity of NIRCam to investigate the host galaxies of 31 quasars at 4 ≲ z ≲ 7 drawn from multiple JWST surveys. Using a new multiband forward-modeling code ( GalfitS ) that incorporates physically motivated priors, we securely detect and quantify the host emission in 30 objects, while simultaneously characterizing the nuclear spectral energy distribution. The host galaxies of high-redshift quasars are ∼0.3 dex more compact than star-forming galaxies of comparable mass. A striking dichotomy emerges: luminous “blue” quasars ( L 5100 ≳ 10 45 erg s −1 ) reside in bulge-dominated galaxies (Sérsic index n ≈ 5) and exhibit a narrow range of ultraviolet nuclear slopes (median β UV ≈ −1.4), while fainter “red” quasars inhabit disklike hosts ( n ≈ 1) and display a broad range of slopes ( β UV ≈ −2–4). These two populations differ markedly in their black hole-to-stellar mass ratios, with high-luminosity quasars showing M BH / M * = 1.2% compared to 4.7% for lower-luminosity sources, placing them collectively ∼0.6 dex above the local M BH – M * relation. This offset likely reflects rapid black hole growth in early gas-rich environments, where feedback from the active galactic nucleus becomes effective only after substantial gas depletion. Our findings suggest that the observed dichotomy, whether due to intrinsic spectral differences or dust extinction, fundamentally shapes the coevolution of supermassive black holes and their host galaxies in the early Universe.

Topics & Concepts

PhysicsQuasarAstrophysicsSupermassive black holeGalaxyAstronomyActive galactic nucleusOVV quasarBlack hole (networking)Dark galaxyLuminous infrared galaxyPeculiar galaxyRadio galaxyGalaxy formation and evolutionSpin-flipSpectral indexGalaxy mergerGalactic nucleiExtragalactic astronomyCOSMIC cancer databaseMilky WayGalaxies: Formation, Evolution, PhenomenaAstronomy and Astrophysical ResearchAstrophysical Phenomena and Observations