Exploring the case for hard-X-ray beaming in NGC 6946 X-1
Exploring the case for hard-X-ray beaming in NGC 6946 X-1
In order to understand the nature of super-Eddington accretion we must explore both the emission emerging directly from the inflow and its impact on the surroundings. In this paper we test whether we can use the optical line emission of spatially resolved, ionized nebulae around ultraluminous X-ray sources (ULXs) as a proxy for their X-ray luminosity. We choose the ULX NGC 6946 X-1 and its nebula, MF16, as a test case. By studying how the nebular optical line emission responds to assumed irradiation, we can infer the degree to which we require the UV or X-ray emission from the inflow to be collimated by optically thick winds seemingly ubiquitously associated with ULXs. We find that the nebula is highly sensitive to compact UV emission but mostly insensitive to hard X-rays. Our attempts to quantify the beaming of the soft and hard X-rays therefore strongly depends on the UV luminosity of the ULX in the center of the nebula. We find that it is not possible to conclude a lack of geometrical beaming of hard X-rays from such sources via nebula feedback.
astro-ph.HE
Beuchert, Tobias
2cfcc7e9-5453-4d6e-834c-a3c2d38dcfff
Middleton, Matthew J.
f91b89d9-fd2e-42ec-aa99-1249f08a52ad
Soria, Roberto
7ecc3695-d029-4c0f-adf4-be72c3a1eb50
Miller-Jones, James C.A.
2558bd1f-48e4-4885-b1ef-af0e642e00ba
Dauser, Thomas
665d7531-35d5-4017-9515-cb5cb2dc25a6
Roberts, Timothy P.
978a10ee-243e-4eaa-8a91-91aa06d35dc6
Sathyaprakash, Rajath
084fe67f-d474-4733-923f-7815626cf550
Markoff, Sera
cc45d341-8f9d-4f1f-a960-27a61ce79271
Beuchert, Tobias
2cfcc7e9-5453-4d6e-834c-a3c2d38dcfff
Middleton, Matthew J.
f91b89d9-fd2e-42ec-aa99-1249f08a52ad
Soria, Roberto
7ecc3695-d029-4c0f-adf4-be72c3a1eb50
Miller-Jones, James C.A.
2558bd1f-48e4-4885-b1ef-af0e642e00ba
Dauser, Thomas
665d7531-35d5-4017-9515-cb5cb2dc25a6
Roberts, Timothy P.
978a10ee-243e-4eaa-8a91-91aa06d35dc6
Sathyaprakash, Rajath
084fe67f-d474-4733-923f-7815626cf550
Markoff, Sera
cc45d341-8f9d-4f1f-a960-27a61ce79271
[Unknown type: UNSPECIFIED]
Abstract
In order to understand the nature of super-Eddington accretion we must explore both the emission emerging directly from the inflow and its impact on the surroundings. In this paper we test whether we can use the optical line emission of spatially resolved, ionized nebulae around ultraluminous X-ray sources (ULXs) as a proxy for their X-ray luminosity. We choose the ULX NGC 6946 X-1 and its nebula, MF16, as a test case. By studying how the nebular optical line emission responds to assumed irradiation, we can infer the degree to which we require the UV or X-ray emission from the inflow to be collimated by optically thick winds seemingly ubiquitously associated with ULXs. We find that the nebula is highly sensitive to compact UV emission but mostly insensitive to hard X-rays. Our attempts to quantify the beaming of the soft and hard X-rays therefore strongly depends on the UV luminosity of the ULX in the center of the nebula. We find that it is not possible to conclude a lack of geometrical beaming of hard X-rays from such sources via nebula feedback.
Text
2408.07751v1
- Author's Original
Available under License Other.
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Accepted/In Press date: 14 August 2024
Additional Information:
10 pages, 6 figures, 4 tables
Keywords:
astro-ph.HE
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Local EPrints ID: 495865
URI: http://eprints.soton.ac.uk/id/eprint/495865
PURE UUID: 1f3e4e7e-7498-468e-b81d-998b3bcae05c
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Date deposited: 26 Nov 2024 17:41
Last modified: 26 Nov 2024 17:41
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Contributors
Author:
Tobias Beuchert
Author:
Roberto Soria
Author:
James C.A. Miller-Jones
Author:
Thomas Dauser
Author:
Timothy P. Roberts
Author:
Rajath Sathyaprakash
Author:
Sera Markoff
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