Document Type
Article
Abstract
We present single-dish and very long baseline interferometry observations of an outburst of water maser emission from the young binary system Haro 6-10. Haro 6-10 lies in the Taurus molecular cloud and contains a visible T Tauri star with an infrared companion 1farcs3 north. Using the Very Long Baseline Array, we obtained five observations spanning three months and derived absolute positions for 20 distinct maser spots. Three of the masers can be traced over three or more epochs, enabling us to extract absolute proper motions and tangential velocities. We deduce that the masers represent one side of a bipolar outflow that lies nearly in the plane of the sky with an opening angle of ~45°. They are located within 50 mas of the southern component of the binary, the visible T Tauri star Haro 6-10S. The mean position angle on the sky of the maser proper motions (~220°) suggests they are related to the previously observed giant Herbig-Haro (HH) flow which includes HH 410, HH 411, HH 412, and HH 184A-E. A previously observed HH jet and extended radio continuum emission (mean position angle of ~190°) must also originate in the vicinity of Haro 6-10S and represent a second, distinct outflow in this region. We propose that a yet unobserved companion within 150 mas of Haro 6-10S is responsible for the giant HH/maser outflow while the visible star is associated with the HH jet. Despite the presence of H2 emission in the spectrum of the northern component of the binary, Haro 6-10N, none of outflows/jets can be tied directly to this young stellar object.
Publication Date
July 2012
Publication Title
The Astrophysical Journal
Volume
753
Issue
2
First Page
143
Last Page
149
DOI
10.1088/0004-637X/753/2/143
Recommended Citation
Wilking, Bruce; Marvel, Kevin; Claussen, Mark; Gerling, Bradley; Wootten, Alwyn; and Gibb, Erika, "A Proper Motion Study of the Haro 6-10 Outflow: Evidence for a Subarcsecond Binary" (2012). Physics Faculty Works. 34.
DOI: https://doi.org/10.1088/0004-637X/753/2/143
Available at:
https://irl.umsl.edu/physics-faculty/34