C IV emission-line properties and systematic trends in quasar black hole mass estimates
C IV emission-line properties and systematic trends in quasar black hole mass estimates
Black hole masses are crucial to understanding the physics of the connection between quasars and their host galaxies and measuring cosmic black hole-growth. At high redshift, z ≳ 2.1, black hole masses are normally derived using the velocity width of the C IV λ λ1548, 1550 broad emission line, based on the assumption that the observed velocity widths arise from virial-induced motions. In many quasars, the C IV emission line exhibits significant blue asymmetries (`blueshifts') with the line centroid displaced by up to thousands of km s-1 to the blue. These blueshifts almost certainly signal the presence of strong outflows, most likely originating in a disc wind. We have obtained near-infrared spectra, including the Hα λ6565 emission line, for 19 luminous (LBol = 46.5-47.5 erg s-1) Sloan Digital Sky Survey quasars, at redshifts 2 < z < 2.7, with C IV emission lines spanning the full range of blueshifts present in the population. A strong correlation between C IV velocity width and blueshift is found and, at large blueshifts, >2000 km s-1, the velocity widths appear to be dominated by non-virial motions. Black hole masses, based on the full width at half-maximum of the C IV emission line, can be overestimated by a factor of 5 at large blueshifts. A larger sample of quasar spectra with both C IV and H β, or Hα, emission lines will allow quantitative corrections to C IV-based black hole masses as a function of blueshift to be derived. We find that quasars with large C IV blueshifts possess high Eddington luminosity ratios and that the fraction of high-blueshift quasars in a flux-limited sample is enhanced by a factor of approximately 4 relative to a sample limited by black hole mass.
galaxies: evolution
647-665
Coatman, Liam
a3dbc7d0-84cf-4f21-9fb1-a5d169b51a6d
Hewett, Paul C.
a4763f70-9f9a-4a4e-85ed-10694a66e5c9
Banerji, Manda
ce0a04bf-70a4-4b64-9027-b1a01def7325
Richards, Gordon T.
0192698b-f415-4a89-9ea5-cd5f74a87755
1 September 2016
Coatman, Liam
a3dbc7d0-84cf-4f21-9fb1-a5d169b51a6d
Hewett, Paul C.
a4763f70-9f9a-4a4e-85ed-10694a66e5c9
Banerji, Manda
ce0a04bf-70a4-4b64-9027-b1a01def7325
Richards, Gordon T.
0192698b-f415-4a89-9ea5-cd5f74a87755
Coatman, Liam, Hewett, Paul C., Banerji, Manda and Richards, Gordon T.
(2016)
C IV emission-line properties and systematic trends in quasar black hole mass estimates.
Monthly Notices Of The Royal Astronomical Society, 461 (1), .
(doi:10.1093/mnras/stw1360).
Abstract
Black hole masses are crucial to understanding the physics of the connection between quasars and their host galaxies and measuring cosmic black hole-growth. At high redshift, z ≳ 2.1, black hole masses are normally derived using the velocity width of the C IV λ λ1548, 1550 broad emission line, based on the assumption that the observed velocity widths arise from virial-induced motions. In many quasars, the C IV emission line exhibits significant blue asymmetries (`blueshifts') with the line centroid displaced by up to thousands of km s-1 to the blue. These blueshifts almost certainly signal the presence of strong outflows, most likely originating in a disc wind. We have obtained near-infrared spectra, including the Hα λ6565 emission line, for 19 luminous (LBol = 46.5-47.5 erg s-1) Sloan Digital Sky Survey quasars, at redshifts 2 < z < 2.7, with C IV emission lines spanning the full range of blueshifts present in the population. A strong correlation between C IV velocity width and blueshift is found and, at large blueshifts, >2000 km s-1, the velocity widths appear to be dominated by non-virial motions. Black hole masses, based on the full width at half-maximum of the C IV emission line, can be overestimated by a factor of 5 at large blueshifts. A larger sample of quasar spectra with both C IV and H β, or Hα, emission lines will allow quantitative corrections to C IV-based black hole masses as a function of blueshift to be derived. We find that quasars with large C IV blueshifts possess high Eddington luminosity ratios and that the fraction of high-blueshift quasars in a flux-limited sample is enhanced by a factor of approximately 4 relative to a sample limited by black hole mass.
More information
Published date: 1 September 2016
Keywords:
galaxies: evolution
Identifiers
Local EPrints ID: 489899
URI: http://eprints.soton.ac.uk/id/eprint/489899
ISSN: 1365-2966
PURE UUID: 063bd9d9-0b31-402a-af1d-c0bc2422a6de
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Date deposited: 07 May 2024 16:41
Last modified: 08 May 2024 01:58
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Contributors
Author:
Liam Coatman
Author:
Paul C. Hewett
Author:
Gordon T. Richards
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