The variability behavior of NGC 925 ULX-3
The variability behavior of NGC 925 ULX-3
We report the results of a 2019-2021 monitoring campaign with Swift and
associated target-of-opportunity observations with XMM-Newton and
NuSTAR, examining the spectral and timing behavior of the highly
variable ultraluminous X-ray source (ULX) NGC 925 ULX-3. We find that
the source exhibits a 127-128-day periodicity, with fluxes typically
ranging from 1 × 10-13 to 8 × 10-13
erg s-1 cm-2. We do not find strong evidence for a
change in period over the time that NGC 925 ULX-3 has been observed,
although the source may have been in a much lower flux state when first
observed with Chandra in 2005. We do not detect pulsations, and we place
an upper limit on the pulsed fraction of ~40% in the XMM-Newton band,
consistent with some previous pulsation detections at low energies in
other ULXs. The source exhibits a typical ULX spectrum that turns over
in the NuSTAR band and can be fitted using two thermal components. These
components have a high temperature ratio that may indicate the lack of
extreme inner disk truncation by a magnetar-level magnetic field. We
examine the implications for a number of different models for
superorbital periods in ULXs, finding that a neutron star with a
magnetic field of ~1012 G may be plausible for this source.
The future detection of pulsations from this source would allow for the
further testing and constraining of such models.
1108, 14, 1822, 2164, Accretion, Neutron stars, Ultraluminous x-ray sources, X-ray sources
42
Earnshaw, Hannah P.
08135aea-9b43-40fc-8a6f-3006dec21b79
Brightman, Murray
57cbed53-6026-477c-be63-e670ab4e36cf
Harrison, Fiona A.
d12bd352-3538-4dac-86fb-f13bc5837016
Heida, Marianne
5def730d-b1c2-43e2-9d44-57689bb3a604
Jaodand, Amruta
82989aeb-a41d-4628-8820-f85fa5e679f9
Middleton, Matthew J.
f91b89d9-fd2e-42ec-aa99-1249f08a52ad
Roberts, Timothy P.
2e81b871-8347-4bb9-bfd5-b716023bf8d0
Walton, Dominic J.
260d33ee-1325-4ce5-9eb3-94e319e37ecd
Earnshaw, Hannah P.
08135aea-9b43-40fc-8a6f-3006dec21b79
Brightman, Murray
57cbed53-6026-477c-be63-e670ab4e36cf
Harrison, Fiona A.
d12bd352-3538-4dac-86fb-f13bc5837016
Heida, Marianne
5def730d-b1c2-43e2-9d44-57689bb3a604
Jaodand, Amruta
82989aeb-a41d-4628-8820-f85fa5e679f9
Middleton, Matthew J.
f91b89d9-fd2e-42ec-aa99-1249f08a52ad
Roberts, Timothy P.
2e81b871-8347-4bb9-bfd5-b716023bf8d0
Walton, Dominic J.
260d33ee-1325-4ce5-9eb3-94e319e37ecd
Earnshaw, Hannah P., Brightman, Murray, Harrison, Fiona A. and Middleton, Matthew J.
,
et al.
(2022)
The variability behavior of NGC 925 ULX-3.
The Astrophysical Journal, 934 (1), , [42].
(doi:10.3847/1538-4357/ac79b0).
(In Press)
Abstract
We report the results of a 2019-2021 monitoring campaign with Swift and
associated target-of-opportunity observations with XMM-Newton and
NuSTAR, examining the spectral and timing behavior of the highly
variable ultraluminous X-ray source (ULX) NGC 925 ULX-3. We find that
the source exhibits a 127-128-day periodicity, with fluxes typically
ranging from 1 × 10-13 to 8 × 10-13
erg s-1 cm-2. We do not find strong evidence for a
change in period over the time that NGC 925 ULX-3 has been observed,
although the source may have been in a much lower flux state when first
observed with Chandra in 2005. We do not detect pulsations, and we place
an upper limit on the pulsed fraction of ~40% in the XMM-Newton band,
consistent with some previous pulsation detections at low energies in
other ULXs. The source exhibits a typical ULX spectrum that turns over
in the NuSTAR band and can be fitted using two thermal components. These
components have a high temperature ratio that may indicate the lack of
extreme inner disk truncation by a magnetar-level magnetic field. We
examine the implications for a number of different models for
superorbital periods in ULXs, finding that a neutron star with a
magnetic field of ~1012 G may be plausible for this source.
The future detection of pulsations from this source would allow for the
further testing and constraining of such models.
More information
Accepted/In Press date: 20 July 2022
Additional Information:
Funding Information:
We thank our anonymous referee for useful suggestions to improve this paper. We wish to thank Dan Stern for useful comments on this work. This work was supported by NASA grants 80NSSC20K1496 and 80NSSC21K0873, as well as by NASA contract NNG08FD60C. T.P.R. acknowledges funding from STFC consolidated grant ST/000244/1.
Publisher Copyright:
© 2022. The Author(s). Published by the American Astronomical Society.
Keywords:
1108, 14, 1822, 2164, Accretion, Neutron stars, Ultraluminous x-ray sources, X-ray sources
Identifiers
Local EPrints ID: 475453
URI: http://eprints.soton.ac.uk/id/eprint/475453
ISSN: 0004-637X
PURE UUID: 32f4e637-6dd3-446f-a198-c969d27c668d
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Date deposited: 17 Mar 2023 17:51
Last modified: 16 Mar 2024 22:46
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Contributors
Author:
Hannah P. Earnshaw
Author:
Murray Brightman
Author:
Fiona A. Harrison
Author:
Marianne Heida
Author:
Amruta Jaodand
Author:
Timothy P. Roberts
Author:
Dominic J. Walton
Corporate Author: et al.
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