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Insight-HXMT study of the inner accretion disk in the black hole candidate EXO 1846-031

Insight-HXMT study of the inner accretion disk in the black hole candidate EXO 1846-031
Insight-HXMT study of the inner accretion disk in the black hole candidate EXO 1846-031
We study the spectral evolution of the black hole candidate EXO 1846-031during its 2019 outburst, in the 1-150 keV band, with the Hard X-ray Modulation Telescope. The continuum spectrum is well modeled with an absorbed disk-blackbody plus cutoff power law, in the hard, intermediate, and soft states. In addition, we detect an ≍6.6 keV Fe emission line in the hard intermediate state. Throughout the soft intermediate and soft states, the fitted inner disk radius remains almost constant; we suggest that it has settled at the innermost stable circular orbit (ISCO). However, in the hard and hard intermediate states, the apparent inner radius was unphysically small (smaller than the ISCO), even after accounting for the Compton scattering of some of the disk photons by the corona in the fit. We argue that this is the result of a high hardening factor, f col ≍ 2.0-2.7, in the early phases of the outburst evolution, well above the canonical value of 1.7 suitable for a steady disk. We suggest that the inner disk radius was already close to the ISCO in the low/hard state. Furthermore, we propose that this high value of the hardening factor in the relatively hard state was probably caused by the additional illuminating of the coronal irradiation onto the disk. Additionally, we estimate the spin parameter using the continuum-fitting method, over a range of plausible black hole masses and distances. We compare our results with the spin measured using the reflection-fitting method and find that the inconsistency of the two results is partly caused by different choices of ∫ col.
14, 159, 739, accretion, black hole physics – galaxies: active – X-rays: galaxies., high energy astrophysics
0004-637X
Ren, X. Q.
906990fe-4a66-4f66-857a-810e0570c731
Wang, Yanan
1cde6df5-bf7a-43ac-9e75-7560cd7e7e3d
Zhang, S.
bc148d97-20c6-4e6f-b491-3ece2bd142f7
Soria, R.
56ae49f7-b9b8-4eed-bae0-3947ea14ec19
Tao, L.
193c6717-a901-4756-ac8e-519d561fc3dd
Ji, Lin
579d8d88-f2c2-43ae-9371-884bf47f8a20
Yang, Y. J.
c5391d7a-de4c-4445-93fc-6797ad64dcbf
Qu, J. L.
33388626-6b99-4d2a-8a0d-d9b4f07842e2
Zhang, S.
7d9e0197-d44b-4059-bdee-0cc609d66602
Song, L. M.
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Ge, M. Y.
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Huang, Y.
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Li, X. B.
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Liao, J. Y.
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Liu, H. X.
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Ma, R. C.
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Tuo, Y. L.
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Wang, P. J.
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Zhang, W.
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Zhou, D. K.
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Ren, X. Q.
906990fe-4a66-4f66-857a-810e0570c731
Wang, Yanan
1cde6df5-bf7a-43ac-9e75-7560cd7e7e3d
Zhang, S.
bc148d97-20c6-4e6f-b491-3ece2bd142f7
Soria, R.
56ae49f7-b9b8-4eed-bae0-3947ea14ec19
Tao, L.
193c6717-a901-4756-ac8e-519d561fc3dd
Ji, Lin
579d8d88-f2c2-43ae-9371-884bf47f8a20
Yang, Y. J.
c5391d7a-de4c-4445-93fc-6797ad64dcbf
Qu, J. L.
33388626-6b99-4d2a-8a0d-d9b4f07842e2
Zhang, S.
7d9e0197-d44b-4059-bdee-0cc609d66602
Song, L. M.
aab09a49-7922-4d40-a06a-eaf0a8ef8df3
Ge, M. Y.
aca8de30-ea78-469d-9146-6216e1f1d44f
Huang, Y.
a35f9a6d-3824-4512-b4d9-79af5c36de03
Li, X. B.
fc9b38af-ce8d-4e5e-adac-82d3e6dc68d3
Liao, J. Y.
77cdd5ed-fbf1-417f-99fc-7f7c9012a10d
Liu, H. X.
dc894af3-77b4-43eb-b0fc-6dc4dcee40c2
Ma, R. C.
ba90ea95-22d9-47d6-b654-7f8112d8219b
Tuo, Y. L.
4c930131-452f-42b9-8ecf-856048ac278f
Wang, P. J.
673e6ecc-3b47-44aa-b7ba-46b4448a9d99
Zhang, W.
da6be222-a39e-4775-9854-081a1dfcf1c8
Zhou, D. K.
60f5f209-7f0f-4364-9d2c-ed4bc584b7e9

Ren, X. Q., Wang, Yanan, Zhang, S., Soria, R., Tao, L., Ji, Lin, Yang, Y. J., Qu, J. L., Zhang, S., Song, L. M., Ge, M. Y., Huang, Y., Li, X. B., Liao, J. Y., Liu, H. X., Ma, R. C., Tuo, Y. L., Wang, P. J., Zhang, W. and Zhou, D. K. (2022) Insight-HXMT study of the inner accretion disk in the black hole candidate EXO 1846-031. The Astrophysical Journal, 932 (1), [66]. (doi:10.3847/1538-4357/ac6dd7).

Record type: Article

Abstract

We study the spectral evolution of the black hole candidate EXO 1846-031during its 2019 outburst, in the 1-150 keV band, with the Hard X-ray Modulation Telescope. The continuum spectrum is well modeled with an absorbed disk-blackbody plus cutoff power law, in the hard, intermediate, and soft states. In addition, we detect an ≍6.6 keV Fe emission line in the hard intermediate state. Throughout the soft intermediate and soft states, the fitted inner disk radius remains almost constant; we suggest that it has settled at the innermost stable circular orbit (ISCO). However, in the hard and hard intermediate states, the apparent inner radius was unphysically small (smaller than the ISCO), even after accounting for the Compton scattering of some of the disk photons by the corona in the fit. We argue that this is the result of a high hardening factor, f col ≍ 2.0-2.7, in the early phases of the outburst evolution, well above the canonical value of 1.7 suitable for a steady disk. We suggest that the inner disk radius was already close to the ISCO in the low/hard state. Furthermore, we propose that this high value of the hardening factor in the relatively hard state was probably caused by the additional illuminating of the coronal irradiation onto the disk. Additionally, we estimate the spin parameter using the continuum-fitting method, over a range of plausible black hole masses and distances. We compare our results with the spin measured using the reflection-fitting method and find that the inconsistency of the two results is partly caused by different choices of ∫ col.

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Accepted/In Press date: 11 May 2022
Published date: 1 June 2022
Additional Information: Funding Information: This work has made use of data from the Insight-HXMT mission, a project funded by the China National Space Administration (CNSA) and the Chinese Academy of Sciences (CAS). This work is supported by the National Key R&D Program of China (2021YFA0718500) and the National Natural Science Foundation of China under grants U1838201,11473027, U1838202, 11733009, U1838104, U1938101, U1838115, U2038101, and U1938103, and NSF grant 12073029. Y.W. acknowledges support from the Royal Society Newton Funds. J.L. thanks the Guangdong Major Project of Basic and Applied Basic Research (grant No. 2019B030302001). R.S. is grateful for NSF grant 12073029.
Keywords: 14, 159, 739, accretion, black hole physics – galaxies: active – X-rays: galaxies., high energy astrophysics

Identifiers

Local EPrints ID: 474867
URI: http://eprints.soton.ac.uk/id/eprint/474867
DOI: doi:10.3847/1538-4357/ac6dd7
ISSN: 0004-637X
PURE UUID: 8d458cfe-bb8d-47e8-8824-0dc83efc9c85

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Date deposited: 03 Mar 2023 17:51
Last modified: 16 Mar 2024 22:37

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Contributors

Author: X. Q. Ren
Author: Yanan Wang
Author: S. Zhang
Author: R. Soria
Author: L. Tao
Author: Lin Ji
Author: Y. J. Yang
Author: J. L. Qu
Author: S. Zhang
Author: L. M. Song
Author: M. Y. Ge
Author: Y. Huang
Author: X. B. Li
Author: J. Y. Liao
Author: H. X. Liu
Author: R. C. Ma
Author: Y. L. Tuo
Author: P. J. Wang
Author: W. Zhang
Author: D. K. Zhou

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