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A naked-eye triple system with a nonaccreting black hole in the inner binary

Th. Rivinius, D. Baade, P. Hadrava, M. Heida, R. Klement

2020Astronomy and Astrophysics97 citationsDOIOpen Access PDF

Abstract

Several dozen optical echelle spectra demonstrate that HR 6819 is a hierarchical triple. A classical Be star is in a wide orbit with an unconstrained period around an inner 40 d binary consisting of a B3 III star and an unseen companion in a circular orbit. The radial-velocity semi-amplitude of 61.3 km s −1 of the inner star and its minimum (probable) mass of 5.0 M ⊙ (6.3 ± 0.7 M ⊙ ) imply a mass of the unseen object of ≥4.2 M ⊙ (≥5.0 ± 0.4 M ⊙ ), that is, a black hole (BH). The spectroscopic time series is stunningly similar to observations of LB-1. A similar triple-star architecture of LB-1 would reduce the mass of the BH in LB-1 from ∼70 M ⊙ to a level more typical of Galactic stellar remnant BHs. The BH in HR 6819 probably is the closest known BH to the Sun, and together with LB-1, suggests a population of quiet BHs. Its embedment in a hierarchical triple structure may be of interest for models of merging double BHs or BH + neutron star binaries. Other triple stars with an outer Be star but without BH are identified; through stripping, such systems may become a source of single Be stars.

Topics & Concepts

PhysicsAstrophysicsNeutron starBlack hole (networking)Star (game theory)AstronomyStarsBinary starBinary black holePopulationBinary numberStellar black holeX-ray binaryLow MassRoche lobeOrbital elementsOrbital periodIntermediate-mass black holeOrbit (dynamics)Spectral lineStellar massBe starBinary systemStellar evolutionCompact starMass ratioCircular orbitGalactic CenterStar clusterRadial velocityPlanetStellar, planetary, and galactic studiesAstrophysical Phenomena and ObservationsAstronomy and Astrophysical Research
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