Litcius/Paper detail

Revealing the Accretion Physics of Supermassive Black Holes at Redshift z ∼ 7 with Chandra and Infrared Observations

Feige Wang, Xiaohui Fan, Jinyi Yang, Chiara Mazzucchelli, Xue-Bing Wu, Jiangtao Li, Eduardo Bañados, Emanuele Paolo Farina, Riccardo Nanni, Y. L. Ai, Fuyan Bian, Frederick B. Davies, Roberto Decarli, Joseph F. Hennawi, Jan–Torge Schindler, Bram Venemans, Fabian Walter

2021The Astrophysical Journal69 citationsDOIOpen Access PDF

Abstract

Abstract X-ray emission from quasars has been detected up to redshift z = 7.5, although only limited to a few objects at z > 6.5. In this work, we present new Chandra observations of five z > 6.5 quasars. By combining with archival Chandra observations of six additional z > 6.5 quasars, we perform a systematic analysis on the X-ray properties of these earliest accreting supermassive black holes (SMBHs). We measure the black hole masses, bolometric luminosities ( L bol ), Eddington ratios ( λ Edd ), emission line properties, and infrared luminosities ( L IR ) of these quasars using infrared and submillimeter observations. Correlation analysis indicates that the X-ray bolometric correction (the factor that converts from X-ray luminosity to bolometric luminosity) decreases with increasing L bol , and that the UV/optical-to-X-ray ratio, α ox , strongly correlates with L 2500 Å , and moderately correlates with λ Edd and blueshift of C iv emission lines. These correlations are consistent with those found in lower- z quasars, indicating quasar accretion physics does not evolve with redshift. We also find that L IR does not correlate with L 2–10 keV in these luminous distant quasars, suggesting that the ratio of the SMBH growth rate and their host galaxy growth rate in these early luminous quasars are different from those of local galaxies. A joint spectral analysis of the X-ray detected z > 6.5 quasars yields an average X-ray photon index of , steeper than that of low- z quasars. By comparing it with the Γ − λ Edd relation, we conclude that the steepening of Γ for quasars at z > 6.5 is mainly driven by their higher Eddington ratios.

Topics & Concepts

PhysicsAstrophysicsQuasarSupermassive black holeRedshiftGalaxyAccretion (finance)Active galactic nucleusInfraredLuminosityEddington luminosityAstronomyDoubly ionized oxygenLuminous infrared galaxyEmission spectrumBlack hole (networking)Spectral lineRouting protocolComputer networkRouting (electronic design automation)Link-state routing protocolComputer scienceGalaxies: Formation, Evolution, PhenomenaAstrophysical Phenomena and ObservationsGamma-ray bursts and supernovae