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A redshift for the intermediate-mass black hole candidate hlx-1: confirmation of its association with the galaxy eso 243-49

A redshift for the intermediate-mass black hole candidate hlx-1: confirmation of its association with the galaxy eso 243-49
A redshift for the intermediate-mass black hole candidate hlx-1: confirmation of its association with the galaxy eso 243-49
In this Letter, we report a spectroscopic confirmation of the association of HLX-1, the brightest ultra-luminous X-ray (ULX) source, with the galaxy ESO 243-49. At the host galaxy distance of 95 Mpc, the maximum observed 0.2-10 keV luminosity is 1.2 × 1042 erg s–1. This luminosity is ~400 times above the Eddington limit for a 20 M sun black hole and has been interpreted as implying an accreting intermediate-mass black hole with a mass in excess of 500 M sun (assuming that the luminosity is a factor of 10 above the Eddington value). However, a number of other ULX sources have been later identified as background active galaxies or foreground sources. It has recently been claimed that HLX-1 could be a quiescent neutron star X-ray binary at a Galactic distance of only 2.5 kpc, so a definitive association with the host galaxy is crucial in order to confirm the nature of the object. Here, we report the detection of the H? emission line for the recently identified optical counterpart at a redshift consistent with that of ESO 243-49. This finding definitively places HLX-1 inside ESO 243-49, confirming the extreme maximum luminosity and strengthening the case for it containing an accreting intermediate-mass black hole of more than 500 M sun
2041-8205
L102-L106
Wiersema, K.
050aa7fc-adab-45da-a63d-d03b497988db
Farrell, S. A.
5944afd0-61c6-4f40-b5ea-37bb1cfab66d
Webb, N. A.
82e56ad6-42d6-4b59-bb5c-5711df40f3c5
Servillat, M.
d6a403fa-f475-493b-ae95-fa8b544ed567
Maccarone, T. J.
ba93bba6-2417-464c-b00a-4550fbde9ec6
Barret, D.
343cdacd-9683-4f70-910b-6539201daf06
Godet, O.
274cb920-7def-471b-a775-059e458f3b68
Wiersema, K.
050aa7fc-adab-45da-a63d-d03b497988db
Farrell, S. A.
5944afd0-61c6-4f40-b5ea-37bb1cfab66d
Webb, N. A.
82e56ad6-42d6-4b59-bb5c-5711df40f3c5
Servillat, M.
d6a403fa-f475-493b-ae95-fa8b544ed567
Maccarone, T. J.
ba93bba6-2417-464c-b00a-4550fbde9ec6
Barret, D.
343cdacd-9683-4f70-910b-6539201daf06
Godet, O.
274cb920-7def-471b-a775-059e458f3b68

Wiersema, K., Farrell, S. A., Webb, N. A., Servillat, M., Maccarone, T. J., Barret, D. and Godet, O. (2010) A redshift for the intermediate-mass black hole candidate hlx-1: confirmation of its association with the galaxy eso 243-49. The Astrophysical Journal Letters, 721 (2), L102-L106. (doi:10.1088/2041-8205/721/2/L102).

Record type: Article

Abstract

In this Letter, we report a spectroscopic confirmation of the association of HLX-1, the brightest ultra-luminous X-ray (ULX) source, with the galaxy ESO 243-49. At the host galaxy distance of 95 Mpc, the maximum observed 0.2-10 keV luminosity is 1.2 × 1042 erg s–1. This luminosity is ~400 times above the Eddington limit for a 20 M sun black hole and has been interpreted as implying an accreting intermediate-mass black hole with a mass in excess of 500 M sun (assuming that the luminosity is a factor of 10 above the Eddington value). However, a number of other ULX sources have been later identified as background active galaxies or foreground sources. It has recently been claimed that HLX-1 could be a quiescent neutron star X-ray binary at a Galactic distance of only 2.5 kpc, so a definitive association with the host galaxy is crucial in order to confirm the nature of the object. Here, we report the detection of the H? emission line for the recently identified optical counterpart at a redshift consistent with that of ESO 243-49. This finding definitively places HLX-1 inside ESO 243-49, confirming the extreme maximum luminosity and strengthening the case for it containing an accreting intermediate-mass black hole of more than 500 M sun

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Published date: October 2010

Identifiers

Local EPrints ID: 180433
URI: http://eprints.soton.ac.uk/id/eprint/180433
DOI: doi:10.1088/2041-8205/721/2/L102
ISSN: 2041-8205
PURE UUID: 71a03cf0-4765-4ee8-bd69-cb24073e8590

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Date deposited: 11 Apr 2011 12:45
Last modified: 14 Mar 2024 02:52

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Contributors

Author: K. Wiersema
Author: S. A. Farrell
Author: N. A. Webb
Author: M. Servillat
Author: T. J. Maccarone
Author: D. Barret
Author: O. Godet

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