Spectral and timing analysis of NuSTAR and Swift/XRT observations of the X-ray transient MAXI J0637-430
Spectral and timing analysis of NuSTAR and Swift/XRT observations of the X-ray transient MAXI J0637-430
We present results for the first observed outburst from the transient X-ray binary source MAXI J0637–430. This study is based on eight observations from the Nuclear Spectroscopic Telescope Array (NuSTAR) and six observations from the Neil Gehrels Swift Observatory X-Ray Telescope (Swift/XRT) collected from 2019 November 19 to 2020 April 26 as the 3–79 keV source flux declined from 8.2 × 10−10 to 1.4 × 10−12 erg cm−2 s−1. We see the source transition from a soft state with a strong disk-blackbody component to a hard state dominated by a power-law or thermal Comptonization component. NuSTAR provides the first reported coverage of MAXI J0637–430 above 10 keV, and these broadband spectra show that a two-component model does not provide an adequate description of the soft-state spectrum. As such, we test whether blackbody emission from the plunging region could explain the excess emission. As an alternative, we test a reflection model that includes a physical Comptonization continuum. Finally, we also test a spectral component based on reflection of a blackbody illumination spectrum, which can be interpreted as a simple approximation to the reflection produced by returning disk radiation due to the bending of light by the strong gravity of the black hole. We discuss the physical implications of each scenario and demonstrate the value of constraining the source distance.
Buisson, Douglas
f96b1210-d056-4948-9e4a-deeb669e6d1a
LAZAR, HADAR
d10b3d7f-8375-45be-a006-535dec25f6b5
Tomsick, John A.
96b2e8cc-70c1-424a-8380-2551a5077ff5
Pike, Sean N.
a3e8fd64-fc70-4f89-8948-30319ec9c12e
Bachetti, Matteo
6a6bb4d1-0e16-4284-a923-16115c6d3c9d
Connors, Riley M.T.
82074e50-036d-4979-8bc3-e17f8212465a
Fabian, Andrew C.
b9bef0bc-2ecd-49dc-ab2b-954cabea88ba
Fuerst, Felix
ff2572ae-c815-45ed-b33f-86ad7a19a063
García, Javier A.
3d605314-a721-4f21-ba4b-0b56ea18d3a4
Hare, Jeremy
869a49a2-a90b-424d-8b91-f972ce38ffb1
Jiang, Jiachen
95329273-2124-446e-9e16-b7df729367c9
SHAW, AARRAN W.
00b2fcba-ed49-4f26-9bcd-f0706f5912d8
Walton, Dominic J.
3cf6ea78-7dd5-4765-8c09-ba2af76f11e7
Buisson, Douglas
f96b1210-d056-4948-9e4a-deeb669e6d1a
LAZAR, HADAR
d10b3d7f-8375-45be-a006-535dec25f6b5
Tomsick, John A.
96b2e8cc-70c1-424a-8380-2551a5077ff5
Pike, Sean N.
a3e8fd64-fc70-4f89-8948-30319ec9c12e
Bachetti, Matteo
6a6bb4d1-0e16-4284-a923-16115c6d3c9d
Connors, Riley M.T.
82074e50-036d-4979-8bc3-e17f8212465a
Fabian, Andrew C.
b9bef0bc-2ecd-49dc-ab2b-954cabea88ba
Fuerst, Felix
ff2572ae-c815-45ed-b33f-86ad7a19a063
García, Javier A.
3d605314-a721-4f21-ba4b-0b56ea18d3a4
Hare, Jeremy
869a49a2-a90b-424d-8b91-f972ce38ffb1
Jiang, Jiachen
95329273-2124-446e-9e16-b7df729367c9
SHAW, AARRAN W.
00b2fcba-ed49-4f26-9bcd-f0706f5912d8
Walton, Dominic J.
3cf6ea78-7dd5-4765-8c09-ba2af76f11e7
Buisson, Douglas, LAZAR, HADAR, Tomsick, John A., Pike, Sean N., Bachetti, Matteo, Connors, Riley M.T., Fabian, Andrew C., Fuerst, Felix, García, Javier A., Hare, Jeremy, Jiang, Jiachen, SHAW, AARRAN W. and Walton, Dominic J.
(2021)
Spectral and timing analysis of NuSTAR and Swift/XRT observations of the X-ray transient MAXI J0637-430.
Astrophysical Journal, 921 (2).
(doi:10.3847/1538-4357/ac1bab/meta).
Abstract
We present results for the first observed outburst from the transient X-ray binary source MAXI J0637–430. This study is based on eight observations from the Nuclear Spectroscopic Telescope Array (NuSTAR) and six observations from the Neil Gehrels Swift Observatory X-Ray Telescope (Swift/XRT) collected from 2019 November 19 to 2020 April 26 as the 3–79 keV source flux declined from 8.2 × 10−10 to 1.4 × 10−12 erg cm−2 s−1. We see the source transition from a soft state with a strong disk-blackbody component to a hard state dominated by a power-law or thermal Comptonization component. NuSTAR provides the first reported coverage of MAXI J0637–430 above 10 keV, and these broadband spectra show that a two-component model does not provide an adequate description of the soft-state spectrum. As such, we test whether blackbody emission from the plunging region could explain the excess emission. As an alternative, we test a reflection model that includes a physical Comptonization continuum. Finally, we also test a spectral component based on reflection of a blackbody illumination spectrum, which can be interpreted as a simple approximation to the reflection produced by returning disk radiation due to the bending of light by the strong gravity of the black hole. We discuss the physical implications of each scenario and demonstrate the value of constraining the source distance.
Text
2108.03299
- Accepted Manuscript
More information
Accepted/In Press date: 5 August 2021
e-pub ahead of print date: 10 November 2021
Additional Information:
arXiv:2108.03299
Identifiers
Local EPrints ID: 453216
URI: http://eprints.soton.ac.uk/id/eprint/453216
ISSN: 0004-637X
PURE UUID: aedca255-c96c-4d42-9c88-ad48b39a91fd
Catalogue record
Date deposited: 11 Jan 2022 17:38
Last modified: 17 Mar 2024 07:01
Export record
Altmetrics
Contributors
Author:
Douglas Buisson
Author:
HADAR LAZAR
Author:
John A. Tomsick
Author:
Sean N. Pike
Author:
Matteo Bachetti
Author:
Riley M.T. Connors
Author:
Andrew C. Fabian
Author:
Felix Fuerst
Author:
Javier A. García
Author:
Jeremy Hare
Author:
Jiachen Jiang
Author:
AARRAN W. SHAW
Author:
Dominic J. Walton
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics