A big red dot: scattered light, host galaxy signatures and multi-phase gas flows in a luminous, heavily reddened quasar at cosmic noon
A big red dot: scattered light, host galaxy signatures and multi-phase gas flows in a luminous, heavily reddened quasar at cosmic noon
We present a deep X-Shooter rest-frame ultraviolet (UV) to optical spectral analysis of the heavily reddened quasar, ULASJ2315 + 0143 at z = 2 . 566, known to reside in a major-merger host galaxy. The rest-frame optical is best fit by a dust- reddened quasar ( E ( B -V ) QSO = 1 . 55) with black-hole mass log 10 (H β, M BH [M ⊙]) = 10 . 26 ±0 . 05, bolometric luminosity L Bol = 10 48 . 16 erg s -1 and Eddington-scaled accretion rate log 10 ( λEdd ) = -0 . 19. We find remarkable similarities between ULASJ2315 + 0143 and the high-redshift little red dots (LRDs). The rest-frame UV cannot be explained by a dusty quasar component alone and requires an additional blue component consistent with either a star-forming host galaxy or scattered AGN light. We detect broad high-ionization emission lines in the rest-UV, supporting the scattered light interpretation for the UV excess. The scattering fraction represents just 0.05 per cent of the total luminosity of ULASJ2315 + 0143 . Analysis of the mid-infrared SED suggests an absence of hot dust on torus-scales similar to what is observed for LRDs. The obscuring medium is therefore likely on galaxy scales. We detect narrow, blueshifted associated absorption-line systems in C IV , N V , Si IV, and Si III . There is evidence for significant high-velocity ( > 1000 km s -1 ) outflows in both the broad- and narrow-line regions as traced by C IV and [O III ] emission. The kinetic power of the [O III ] wind is ϵion k = 10 44 . 61 erg s -1 ∼0 . 001 L Bol . ULASJ2315 + 0143 is likely in an important transition phase where star formation, black-hole accretion and multiphase gas flows are simultaneously occurring.
galaxies: active, galaxy: e volution, quasars: individual
2948-2965
Stepney, Matthew
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Banerji, Manda
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Tang, Shenli
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Hewett, Paul C.
a4763f70-9f9a-4a4e-85ed-10694a66e5c9
Temple, Matthew J.
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Wethers, Clare F.
16d49a70-2871-4ba6-b797-3a885c81ba62
Puglisi, Annagrazia
97237841-1e6d-48fb-9133-671b6f3af18b
Molyneux, Stephen J.
276e11f1-bfa0-495e-98f3-62682de6929f
1 September 2024
Stepney, Matthew
b769a5cf-0fda-4c4c-8e9d-e29c63e4f62a
Banerji, Manda
ce0a04bf-70a4-4b64-9027-b1a01def7325
Tang, Shenli
bf5e61b2-648a-46a7-a45e-7ce79c411259
Hewett, Paul C.
a4763f70-9f9a-4a4e-85ed-10694a66e5c9
Temple, Matthew J.
7bbe5840-3c09-445a-81f7-e090d01ff411
Wethers, Clare F.
16d49a70-2871-4ba6-b797-3a885c81ba62
Puglisi, Annagrazia
97237841-1e6d-48fb-9133-671b6f3af18b
Molyneux, Stephen J.
276e11f1-bfa0-495e-98f3-62682de6929f
Stepney, Matthew, Banerji, Manda, Tang, Shenli, Hewett, Paul C., Temple, Matthew J., Wethers, Clare F., Puglisi, Annagrazia and Molyneux, Stephen J.
(2024)
A big red dot: scattered light, host galaxy signatures and multi-phase gas flows in a luminous, heavily reddened quasar at cosmic noon.
Monthly Notices Of The Royal Astronomical Society, 533 (3), .
(doi:10.1093/mnras/stae1970).
Abstract
We present a deep X-Shooter rest-frame ultraviolet (UV) to optical spectral analysis of the heavily reddened quasar, ULASJ2315 + 0143 at z = 2 . 566, known to reside in a major-merger host galaxy. The rest-frame optical is best fit by a dust- reddened quasar ( E ( B -V ) QSO = 1 . 55) with black-hole mass log 10 (H β, M BH [M ⊙]) = 10 . 26 ±0 . 05, bolometric luminosity L Bol = 10 48 . 16 erg s -1 and Eddington-scaled accretion rate log 10 ( λEdd ) = -0 . 19. We find remarkable similarities between ULASJ2315 + 0143 and the high-redshift little red dots (LRDs). The rest-frame UV cannot be explained by a dusty quasar component alone and requires an additional blue component consistent with either a star-forming host galaxy or scattered AGN light. We detect broad high-ionization emission lines in the rest-UV, supporting the scattered light interpretation for the UV excess. The scattering fraction represents just 0.05 per cent of the total luminosity of ULASJ2315 + 0143 . Analysis of the mid-infrared SED suggests an absence of hot dust on torus-scales similar to what is observed for LRDs. The obscuring medium is therefore likely on galaxy scales. We detect narrow, blueshifted associated absorption-line systems in C IV , N V , Si IV, and Si III . There is evidence for significant high-velocity ( > 1000 km s -1 ) outflows in both the broad- and narrow-line regions as traced by C IV and [O III ] emission. The kinetic power of the [O III ] wind is ϵion k = 10 44 . 61 erg s -1 ∼0 . 001 L Bol . ULASJ2315 + 0143 is likely in an important transition phase where star formation, black-hole accretion and multiphase gas flows are simultaneously occurring.
More information
Accepted/In Press date: 19 August 2024
Published date: 1 September 2024
Additional Information:
Publisher Copyright:
© 2024 The Author(s).
Keywords:
galaxies: active, galaxy: e volution, quasars: individual
Identifiers
Local EPrints ID: 495985
URI: http://eprints.soton.ac.uk/id/eprint/495985
ISSN: 0035-8711
PURE UUID: 56f846fa-df25-4a24-b4ab-412d93568873
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Date deposited: 28 Nov 2024 17:46
Last modified: 30 Nov 2024 03:04
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Contributors
Author:
Matthew Stepney
Author:
Shenli Tang
Author:
Paul C. Hewett
Author:
Matthew J. Temple
Author:
Clare F. Wethers
Author:
Annagrazia Puglisi
Author:
Stephen J. Molyneux
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