No Redshift Evolution in the Fe II/Mg II Flux Ratios of Quasars across   Cosmic Time

Danyang Jiang; Masafusa Onoue; Linhua Jiang; Samuel Lai; Eduardo; Banados; George D. Becker; Manuela Bischetti; Sarah E. I. Bosman; Rebecca L.; Davies; Valentina DOdorico; Emanuele Paolo Farina; Martin G. Haehnelt; Chiara; Mazzucchelli; Jan-Torge Schindler; Fabian Walter; Yongda Zhu

arXiv:2409.06174·astro-ph.GA·September 11, 2024

No Redshift Evolution in the Fe II/Mg II Flux Ratios of Quasars across Cosmic Time

Danyang Jiang, Masafusa Onoue, Linhua Jiang, Samuel Lai, Eduardo, Banados, George D. Becker, Manuela Bischetti, Sarah E. I. Bosman, Rebecca L., Davies, Valentina DOdorico, Emanuele Paolo Farina, Martin G. Haehnelt, Chiara, Mazzucchelli, Jan-Torge Schindler, Fabian Walter

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TL;DR

This study finds no significant change in the Fe II/Mg II emission line flux ratio in quasars from redshift 1 to 6.6, suggesting rapid iron enrichment in the early universe's supermassive black hole environments.

Contribution

It provides a consistent analysis across multiple redshift ranges using uniform spectral fitting methods, confirming the lack of evolution in Fe II/Mg II ratios over cosmic time.

Findings

01

No significant redshift evolution in Fe II/Mg II ratio from z=1 to 6.6.

02

Supports rapid iron enrichment near supermassive black holes at high redshift.

03

Consistent with previous studies on quasar emission line ratios.

Abstract

The Fe II/Mg II emission line flux ratio in quasar spectra serves as a proxy for the relative Fe to alpha-element abundances in the broad line regions of quasars. Due to the expected different enrichment timescales of the two elements, they can be used as a cosmic clock in the early Universe. We present a study of the Fe II/Mg II ratios in a sample of luminous quasars exploiting high-quality near-IR spectra taken primarily by the XQR-30 program with VLT XSHOOTER. These quasars have a median bolometric luminosity of log(L_bol[erg s^-1])~47.3 and cover a redshift range of z=6.0-6.6. The median value of the measured Fe II/Mg II ratios is ~7.9 with a normalized median absolute deviation of ~2.2. In order to trace the cosmic evolution of Fe II/Mg II in an unbiased manner, we select two comparison samples of quasars with similar luminosities and high-quality spectra from the literature, one…

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Taxonomy

TopicsAstronomy and Astrophysical Research · Stellar, planetary, and galactic studies · Galaxies: Formation, Evolution, Phenomena