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A multi-wavelength study of the hard and soft states of MAXI J1820+070 during its 2018 outburst

A multi-wavelength study of the hard and soft states of MAXI J1820+070 during its 2018 outburst
A multi-wavelength study of the hard and soft states of MAXI J1820+070 during its 2018 outburst
We present a comprehensive multi-wavelength spectral analysis of the black hole X-ray binary MAXI J1820+070 during its 2018 outburst, utilizing AstroSat far UV, soft and hard X-ray data, along with (quasi-)simultaneous optical and X-ray data from Las Cumbres Observatory and NICER, respectively. In the soft state, we detect soft X-ray and UV/optical excess components over and above the intrinsic accretion disk emission ($kT_{\rm in}\sim 0.58$ keV) and a steep X-ray power-law component. The soft X-ray excess is consistent with a high-temperature blackbody ($kT\sim 0.79$ keV), while the UV/optical excess is described by UV emission lines and two low-temperature blackbody components ($kT\sim 3.87$ eV and $\sim 0.75$ eV). Employing continuum spectral fitting, we determine the black hole spin parameter ($a=0.77\pm0.21$), using the jet inclination angle of $64^{\circ}\pm5^{\circ}$ and a mass spanning $5-10M_{\odot}$. In the hard state, we observe a significantly enhanced optical/UV excess component, indicating a stronger reprocessed emission in the outer disk. Broad-band X-ray spectroscopy in the hard state reveals a two-component corona, each associated with its reflection component, in addition to the disk emission ($kT_{\rm in}\sim 0.19$ keV). The softer coronal component dominates the bolometric X-ray luminosity and produces broader relativistic reflection features, while the harder component gets reflected far from the inner disk, yielding narrow reflection features. Furthermore, our analysis in the hard state suggests a substantial truncation of the inner disk ($\gtrsim 51$ gravitational radii) and a high disk density ($\sim 10^{20}\ \rm cm^{-3}$).
astro-ph.HE
Banerjee, Srimanta
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Dewangan, Gulab C.
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Knigge, Christian
ac320eec-631a-426e-b2db-717c8bf7857e
Georganti, Maria
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Gandhi, Poshak
5bc3b5af-42b0-4dd8-8f1f-f74048d4d4a9
Mithun, N.P.S.
65df752d-690a-4083-a544-d50db0e02e7c
Saikia, Payaswini
7d02c74a-4aa7-43ee-b6b0-52ae4a0eaabc
Bhattacharya, Dipankar
857e8ba4-bbbf-4107-9eb3-ab152969dc3a
Russell, David M.
50ca7be8-5f79-4eff-942c-5f0f832188d1
Lewis, Fraser
f256b9a1-9c78-43ec-9a88-753497d20984
Zdziarski, Andrzej A.
d9ebce13-7af4-4c33-9d0f-05fcbeb5bbc7
Banerjee, Srimanta
2daee74d-93c6-4cc4-9b1c-4d15b9520169
Dewangan, Gulab C.
0062ef4f-8422-4085-a1de-8c72f472843c
Knigge, Christian
ac320eec-631a-426e-b2db-717c8bf7857e
Georganti, Maria
99477e62-73c6-4055-b1be-e1728f6894e5
Gandhi, Poshak
5bc3b5af-42b0-4dd8-8f1f-f74048d4d4a9
Mithun, N.P.S.
65df752d-690a-4083-a544-d50db0e02e7c
Saikia, Payaswini
7d02c74a-4aa7-43ee-b6b0-52ae4a0eaabc
Bhattacharya, Dipankar
857e8ba4-bbbf-4107-9eb3-ab152969dc3a
Russell, David M.
50ca7be8-5f79-4eff-942c-5f0f832188d1
Lewis, Fraser
f256b9a1-9c78-43ec-9a88-753497d20984
Zdziarski, Andrzej A.
d9ebce13-7af4-4c33-9d0f-05fcbeb5bbc7

[Unknown type: UNSPECIFIED]

Record type: UNSPECIFIED

Abstract

We present a comprehensive multi-wavelength spectral analysis of the black hole X-ray binary MAXI J1820+070 during its 2018 outburst, utilizing AstroSat far UV, soft and hard X-ray data, along with (quasi-)simultaneous optical and X-ray data from Las Cumbres Observatory and NICER, respectively. In the soft state, we detect soft X-ray and UV/optical excess components over and above the intrinsic accretion disk emission ($kT_{\rm in}\sim 0.58$ keV) and a steep X-ray power-law component. The soft X-ray excess is consistent with a high-temperature blackbody ($kT\sim 0.79$ keV), while the UV/optical excess is described by UV emission lines and two low-temperature blackbody components ($kT\sim 3.87$ eV and $\sim 0.75$ eV). Employing continuum spectral fitting, we determine the black hole spin parameter ($a=0.77\pm0.21$), using the jet inclination angle of $64^{\circ}\pm5^{\circ}$ and a mass spanning $5-10M_{\odot}$. In the hard state, we observe a significantly enhanced optical/UV excess component, indicating a stronger reprocessed emission in the outer disk. Broad-band X-ray spectroscopy in the hard state reveals a two-component corona, each associated with its reflection component, in addition to the disk emission ($kT_{\rm in}\sim 0.19$ keV). The softer coronal component dominates the bolometric X-ray luminosity and produces broader relativistic reflection features, while the harder component gets reflected far from the inner disk, yielding narrow reflection features. Furthermore, our analysis in the hard state suggests a substantial truncation of the inner disk ($\gtrsim 51$ gravitational radii) and a high disk density ($\sim 10^{20}\ \rm cm^{-3}$).

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2402.08237v1 - Author's Original
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e-pub ahead of print date: 13 February 2024
Published date: 13 February 2024
Additional Information: 29 pages, 19 figures, 8 Tables, Accepted for publication in The Astrophysical Journal
Keywords: astro-ph.HE

Identifiers

Local EPrints ID: 487407
URI: http://eprints.soton.ac.uk/id/eprint/487407
PURE UUID: 40d8ea35-0ff6-495c-8e52-c025bc3a6e33
ORCID for Maria Georganti: ORCID iD orcid.org/0000-0002-3776-9652
ORCID for Poshak Gandhi: ORCID iD orcid.org/0000-0003-3105-2615

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Date deposited: 20 Feb 2024 12:45
Last modified: 23 Apr 2024 01:58

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Contributors

Author: Srimanta Banerjee
Author: Gulab C. Dewangan
Author: Maria Georganti ORCID iD
Author: Poshak Gandhi ORCID iD
Author: N.P.S. Mithun
Author: Payaswini Saikia
Author: Dipankar Bhattacharya
Author: David M. Russell
Author: Fraser Lewis
Author: Andrzej A. Zdziarski

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