The first accurate parallax distance to a black hole

J. C.A. Miller-Jones; P. G. Jonker; V. Dhawan; W. Brisken; M. P. Rupen; G. Nelemans; E. Gallo

doi:10.1088/0004-637X/706/2/L230

The first accurate parallax distance to a black hole

J. C.A. Miller-Jones, P. G. Jonker, V. Dhawan, W. Brisken, M. P. Rupen, G. Nelemans, E. Gallo

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156 Scopus citations

Abstract

Using astrometric VLBI observations, we have determined the parallax of the black hole X-ray binary V404 Cyg to be 0.418 ± 0.024mas, corresponding to a distance of 2.39 ± 0.14kpc, significantly lower than the previously accepted value. This model-independent estimate is the most accurate distance to a Galactic stellar-mass black hole measured to date. With this new distance, we confirm that the source was not super-Eddington during its 1989 outburst. The fitted distance and proper motion imply that the black hole in this system likely formed in a supernova, with the peculiar velocity being consistent with a recoil (Blaauw) kick. The size of the quiescent jets inferred to exist in this system is <1.4AU at 22GHz. Astrometric observations of a larger sample of such systems would provide useful insights into the formation and properties of accreting stellar-mass black holes.

Original language	English (US)
Pages (from-to)	L230-L234
Journal	Astrophysical Journal
Volume	706
Issue number	2 PART 2
DOIs	https://doi.org/10.1088/0004-637X/706/2/L230
State	Published - 2009
Externally published	Yes

Keywords

Astrometry
Radio continuum: stars
Stars: distances
Stars: individual (V404 Cyg)
Stars: kinematics
X-rays: binaries

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title = "The first accurate parallax distance to a black hole",

abstract = "Using astrometric VLBI observations, we have determined the parallax of the black hole X-ray binary V404 Cyg to be 0.418 ± 0.024mas, corresponding to a distance of 2.39 ± 0.14kpc, significantly lower than the previously accepted value. This model-independent estimate is the most accurate distance to a Galactic stellar-mass black hole measured to date. With this new distance, we confirm that the source was not super-Eddington during its 1989 outburst. The fitted distance and proper motion imply that the black hole in this system likely formed in a supernova, with the peculiar velocity being consistent with a recoil (Blaauw) kick. The size of the quiescent jets inferred to exist in this system is <1.4AU at 22GHz. Astrometric observations of a larger sample of such systems would provide useful insights into the formation and properties of accreting stellar-mass black holes.",

keywords = "Astrometry, Radio continuum: stars, Stars: distances, Stars: individual (V404 Cyg), Stars: kinematics, X-rays: binaries",

author = "Miller-Jones, {J. C.A.} and Jonker, {P. G.} and V. Dhawan and W. Brisken and Rupen, {M. P.} and G. Nelemans and E. Gallo",

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AU - Jonker, P. G.

AU - Dhawan, V.

AU - Brisken, W.

AU - Rupen, M. P.

AU - Nelemans, G.

AU - Gallo, E.

PY - 2009

Y1 - 2009

N2 - Using astrometric VLBI observations, we have determined the parallax of the black hole X-ray binary V404 Cyg to be 0.418 ± 0.024mas, corresponding to a distance of 2.39 ± 0.14kpc, significantly lower than the previously accepted value. This model-independent estimate is the most accurate distance to a Galactic stellar-mass black hole measured to date. With this new distance, we confirm that the source was not super-Eddington during its 1989 outburst. The fitted distance and proper motion imply that the black hole in this system likely formed in a supernova, with the peculiar velocity being consistent with a recoil (Blaauw) kick. The size of the quiescent jets inferred to exist in this system is <1.4AU at 22GHz. Astrometric observations of a larger sample of such systems would provide useful insights into the formation and properties of accreting stellar-mass black holes.

AB - Using astrometric VLBI observations, we have determined the parallax of the black hole X-ray binary V404 Cyg to be 0.418 ± 0.024mas, corresponding to a distance of 2.39 ± 0.14kpc, significantly lower than the previously accepted value. This model-independent estimate is the most accurate distance to a Galactic stellar-mass black hole measured to date. With this new distance, we confirm that the source was not super-Eddington during its 1989 outburst. The fitted distance and proper motion imply that the black hole in this system likely formed in a supernova, with the peculiar velocity being consistent with a recoil (Blaauw) kick. The size of the quiescent jets inferred to exist in this system is <1.4AU at 22GHz. Astrometric observations of a larger sample of such systems would provide useful insights into the formation and properties of accreting stellar-mass black holes.

KW - Astrometry

KW - Radio continuum: stars

KW - Stars: distances

KW - Stars: individual (V404 Cyg)

KW - Stars: kinematics

KW - X-rays: binaries

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JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2 PART 2

ER -

The first accurate parallax distance to a black hole

Abstract

Keywords

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