The PG-RQS survey. Building the radio spectral distribution of radio-quiet quasars. I. The 45-GHz data
The PG-RQS survey. Building the radio spectral distribution of radio-quiet quasars. I. The 45-GHz data
The origin of the radio emission in radio-quiet quasars (RQQs) remains unclear. Radio emission may be produced by a scaled-down version of the relativistic jets observed in radio-loud (RL) AGN, an AGN-driven wind, the accretion disc corona, AGN photon-ionization of ambient gas (free–free emission), or star formation (SF). Here, we report a pilot study, part of a radio survey (‘PG-RQS’) aiming at exploring the spectral distributions of the 71 Palomar–Green (PG) RQQs: high angular resolution observations (∼50 mas) at 45 GHz (7 mm) with the Karl G. Jansky Very Large Array of 15 sources. Sub-mJy radio cores are detected in 13 sources on a typical scale of ∼100 pc, which excludes significant contribution from galaxy-scale SF. For 9 sources the 45-GHz luminosity is above the lower frequency (∼1–10 GHz) spectral extrapolation, indicating the emergence of an additional flatter-spectrum compact component at high frequencies. The X-ray luminosity and black hole (BH) mass, correlate more tightly with the 45-GHz luminosity than the 5-GHz. The 45 GHz-based radio-loudness increases with decreasing Eddington ratio and increasing BH mass MBH. These results suggest that the 45-GHz emission from PG RQQs nuclei originates from the innermost region of the core, probably from the accretion disc corona. Increasing contributions to 45-GHz emission from a jet at higher MBH and lower Eddington ratios and from a disc wind at large Eddington ratios are still consistent with our results. Future full radio spectral coverage of the sample will help us investigating the different physical mechanisms in place in RQQ cores.
1043–1058
Baldi, Ranieri Diego
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McHardy, Ian
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Laor, Ari
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Behar, Ehud
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Horesh, A.
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Panessa, F.
ea57d0af-2ad5-4f65-a8f7-b001e70ebe13
Kimball, A.
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Baldi, Ranieri Diego
c416ed4c-5d1c-48ee-989c-3a8ab38cd124
McHardy, Ian
4f215137-9cc4-4a08-982e-772a0b24c17e
Laor, Ari
c05ad4c1-3fb4-465a-ab9e-8928b410043c
Behar, Ehud
04fd38d9-e172-4ae9-a530-9418b301e041
Horesh, A.
cc2a6ff6-819a-4c18-a203-e23d8efdec25
Panessa, F.
ea57d0af-2ad5-4f65-a8f7-b001e70ebe13
Kimball, A.
92bc3549-4820-4680-9c58-ef9835881a49
Baldi, Ranieri Diego, McHardy, Ian, Laor, Ari, Behar, Ehud, Horesh, A., Panessa, F. and Kimball, A.
(2021)
The PG-RQS survey. Building the radio spectral distribution of radio-quiet quasars. I. The 45-GHz data.
Monthly Notices of the Royal Astronomical Society, 510 (1), .
(doi:10.1093/mnras/stab3445).
Abstract
The origin of the radio emission in radio-quiet quasars (RQQs) remains unclear. Radio emission may be produced by a scaled-down version of the relativistic jets observed in radio-loud (RL) AGN, an AGN-driven wind, the accretion disc corona, AGN photon-ionization of ambient gas (free–free emission), or star formation (SF). Here, we report a pilot study, part of a radio survey (‘PG-RQS’) aiming at exploring the spectral distributions of the 71 Palomar–Green (PG) RQQs: high angular resolution observations (∼50 mas) at 45 GHz (7 mm) with the Karl G. Jansky Very Large Array of 15 sources. Sub-mJy radio cores are detected in 13 sources on a typical scale of ∼100 pc, which excludes significant contribution from galaxy-scale SF. For 9 sources the 45-GHz luminosity is above the lower frequency (∼1–10 GHz) spectral extrapolation, indicating the emergence of an additional flatter-spectrum compact component at high frequencies. The X-ray luminosity and black hole (BH) mass, correlate more tightly with the 45-GHz luminosity than the 5-GHz. The 45 GHz-based radio-loudness increases with decreasing Eddington ratio and increasing BH mass MBH. These results suggest that the 45-GHz emission from PG RQQs nuclei originates from the innermost region of the core, probably from the accretion disc corona. Increasing contributions to 45-GHz emission from a jet at higher MBH and lower Eddington ratios and from a disc wind at large Eddington ratios are still consistent with our results. Future full radio spectral coverage of the sample will help us investigating the different physical mechanisms in place in RQQ cores.
Text
2107.14490
- Accepted Manuscript
More information
Accepted/In Press date: 23 November 2021
e-pub ahead of print date: 27 November 2021
Additional Information:
arXiv:2107.14490
Identifiers
Local EPrints ID: 455228
URI: http://eprints.soton.ac.uk/id/eprint/455228
ISSN: 1365-2966
PURE UUID: 90920f60-f1a1-4521-88cf-0e802eb927ab
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Date deposited: 15 Mar 2022 17:47
Last modified: 16 Mar 2024 16:11
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Contributors
Author:
Ranieri Diego Baldi
Author:
Ian McHardy
Author:
Ari Laor
Author:
Ehud Behar
Author:
A. Horesh
Author:
F. Panessa
Author:
A. Kimball
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