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No redshift evolution in the rest-frame UV emission line properties of quasars from z=1.5 to z=4.0

No redshift evolution in the rest-frame UV emission line properties of quasars from z=1.5 to z=4.0
No redshift evolution in the rest-frame UV emission line properties of quasars from z=1.5 to z=4.0

We analyse the rest-frame ultraviolet (UV) spectra of 2531 high-redshift (3.5 < z < 4.0) quasars from the Sloan Digital Sky Survey DR16Q catalogue. In combination with previous work, we study the redshift evolution of the rest-frame UV line properties across the entire redshift range, 1.5 < z < 4.0. We improve the systemic redshift estimates at z > 3.5 using a cross-correlation algorithm that employs high signal-to-noise template spectra spanning the full range in UV emission line properties. We then quantify the evolution of C IV and He II emission line properties with redshift. The increase in C IV blueshifts with cosmological redshift can be fully explained by the higher luminosities of quasars observed at high redshifts. We recover broadly similar trends between the He II equivalent width and C IV blueshift at both 1.5 < z < 2.65 and 3.5 < z < 4.0 suggesting that the blueshift depends systematically on the spectral energy density (SED) of the quasar and there is no evolution in the SED over the redshift range 1.5 < z < 4.0. C IV blueshifts are highest when L/L Edd ≥ 0.2 and M BH ≥ 10 9 M for the entire 1.5 < z < 4.0 sample. We find that luminosity matching samples as a means to explore the evolution of their rest-frame UV emission line properties is only viable if the samples are also matched in the M BH–L/L Edd plane. Quasars at z ≥ 6 are on average less massive and have higher Eddington-scaled accretion rates than their luminosity-matched counterparts at 1.5 < z < 4.0, which could explain the observed evolution in their UV line properties.

astro-ph.GA
1365-2966
5497-5513
Stepney, Matthew
b769a5cf-0fda-4c4c-8e9d-e29c63e4f62a
Banerji, Manda
ce0a04bf-70a4-4b64-9027-b1a01def7325
Hewett, Paul C.
a4763f70-9f9a-4a4e-85ed-10694a66e5c9
Temple, Matthew J.
7bbe5840-3c09-445a-81f7-e090d01ff411
Rankine, Amy L.
88010438-646c-44d2-95a3-2d9ada0a07eb
Matthews, James H.
8aa37525-32b9-460c-bb83-01c89269ac31
Richards, Gordon T.
0192698b-f415-4a89-9ea5-cd5f74a87755
Stepney, Matthew
b769a5cf-0fda-4c4c-8e9d-e29c63e4f62a
Banerji, Manda
ce0a04bf-70a4-4b64-9027-b1a01def7325
Hewett, Paul C.
a4763f70-9f9a-4a4e-85ed-10694a66e5c9
Temple, Matthew J.
7bbe5840-3c09-445a-81f7-e090d01ff411
Rankine, Amy L.
88010438-646c-44d2-95a3-2d9ada0a07eb
Matthews, James H.
8aa37525-32b9-460c-bb83-01c89269ac31
Richards, Gordon T.
0192698b-f415-4a89-9ea5-cd5f74a87755

Stepney, Matthew, Banerji, Manda, Hewett, Paul C., Temple, Matthew J., Rankine, Amy L., Matthews, James H. and Richards, Gordon T. (2023) No redshift evolution in the rest-frame UV emission line properties of quasars from z=1.5 to z=4.0. Monthly Notices of the Royal Astronomical Society, 524 (4), 5497-5513, [stad2060]. (doi:10.1093/mnras/stad2060).

Record type: Article

Abstract

We analyse the rest-frame ultraviolet (UV) spectra of 2531 high-redshift (3.5 < z < 4.0) quasars from the Sloan Digital Sky Survey DR16Q catalogue. In combination with previous work, we study the redshift evolution of the rest-frame UV line properties across the entire redshift range, 1.5 < z < 4.0. We improve the systemic redshift estimates at z > 3.5 using a cross-correlation algorithm that employs high signal-to-noise template spectra spanning the full range in UV emission line properties. We then quantify the evolution of C IV and He II emission line properties with redshift. The increase in C IV blueshifts with cosmological redshift can be fully explained by the higher luminosities of quasars observed at high redshifts. We recover broadly similar trends between the He II equivalent width and C IV blueshift at both 1.5 < z < 2.65 and 3.5 < z < 4.0 suggesting that the blueshift depends systematically on the spectral energy density (SED) of the quasar and there is no evolution in the SED over the redshift range 1.5 < z < 4.0. C IV blueshifts are highest when L/L Edd ≥ 0.2 and M BH ≥ 10 9 M for the entire 1.5 < z < 4.0 sample. We find that luminosity matching samples as a means to explore the evolution of their rest-frame UV emission line properties is only viable if the samples are also matched in the M BH–L/L Edd plane. Quasars at z ≥ 6 are on average less massive and have higher Eddington-scaled accretion rates than their luminosity-matched counterparts at 1.5 < z < 4.0, which could explain the observed evolution in their UV line properties.

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2307.02962v1 - Author's Original
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stad2060 - Accepted Manuscript
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Accepted/In Press date: 6 July 2023
e-pub ahead of print date: 12 July 2023
Published date: 1 October 2023
Additional Information: Funding Information: Funding for the Sloan Digital Sky Survey IV has been provided by the Alfred P. Sloan Foundation, the U.S. Department of Energy Office of Science, and the Participating Institutions. SDSS-IV acknowledges support and resources from the Center for High-Performance Computing at the University of Utah. The SDSS web site is www.sdss.org . Funding Information: MS acknowledges funding from the University of Southampton via the Mayflower studentship. MB acknowledges funding from the Royal Society via a University Research Fellowship (UF160074). MJT acknowledges support from a FONDECYT postdoctoral fellowship (3220516). ALR acknowledges support from UKRI (MR/T020989/1). For the purpose of open access, the author has applied a Creative Commons Attribution (CC BY) licence to any Author Accepted Manuscript version arising from this submission. Publisher Copyright: © 2023 The Author(s)
Keywords: astro-ph.GA
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Identifiers

Local EPrints ID: 479886
URI: http://eprints.soton.ac.uk/id/eprint/479886
DOI: doi:10.1093/mnras/stad2060
ISSN: 1365-2966
PURE UUID: 872fc4d4-c3dd-4276-9352-e4485413a216
ORCID for Manda Banerji: ORCID iD orcid.org/0000-0002-0639-5141

Catalogue record

Date deposited: 28 Jul 2023 16:40
Last modified: 17 Mar 2024 04:01

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Contributors

Author: Matthew Stepney
Author: Manda Banerji ORCID iD
Author: Paul C. Hewett
Author: Matthew J. Temple
Author: Amy L. Rankine
Author: James H. Matthews
Author: Gordon T. Richards

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