Astrophys. J., 834, 141-141 (2017/January-2)
The Gould's Belt Distances Survey (GOBELINS). I. Trigonometric parallax distances and depth of the Ophiuchus complex.
ORTIZ-LEON G.N., LOINARD L., KOUNKEL M.A., DZIB S.A., MIODUSZEWSKI A.J., RODRIGUEZ L.F., TORRES R.M., GONZALEZ-LOPEZLIRA R.A., PECH G., RIVERA J.L., HARTMANN L., BODEN A.F., EVANS II N.J., BRICENO C., TOBIN J.J., GALLI P.A.B. and GUDEHUS D.
Abstract (from CDS):
We present the first results of the Gould's Belt Distances Survey (GOBELINS), a project aimed at measuring the proper motion and trigonometric parallax of a large sample of young stars in nearby regions using multi-epoch Very Long Baseline Array (VLBA) radio observations. Enough VLBA detections have now been obtained for 16 stellar systems in Ophiuchus to derive their parallax and proper motion. This leads to distance determinations for individual stars with an accuracy of 0.3 to a few percent. In addition, the orbits of six multiple systems were modelled by combining absolute positions with VLBA (and, in some cases, near-infrared) angular separations. Twelve stellar systems are located in the dark cloud Lynds 1688; the individual distances for this sample are highly consistent with one another and yield a mean parallax for Lynds 1688 of ϖ=7.28±0.06 mas, corresponding to a distance d=137.3±1.2 pc. This represents an accuracy greater than 1%. Three systems for which astrometric elements could be measured are located in the eastern streamer (Lynds 1689) and yield an estimate of ϖ=6.79±0.16 mas, corresponding to a distance d=147.3±3.4 pc. This suggests that the eastern streamer is located about 10 pc farther than the core, but this conclusion needs to be confirmed by observations of additional sources in the eastern streamer (currently being collected). From the measured proper motions, we estimate the one-dimensional velocity dispersion in Lynds 1688 to be 2.8 ± 1.8 and 3.0 ± 2.0 km s–1, in R.A. and decl., respectively; these are larger than, but still consistent within 1σof, those found in other studies.
© 2017. The American Astronomical Society. All rights reserved.
astrometry - radiation mechanisms: non-thermal - radio continuum: stars - techniques: interferometric - techniques: interferometric
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