The runaway O-type stars HD 14633 and HD 15137 are both SB1 systems that were probably ejected from the open cluster NGC 654. Were these stars dynamically ejected by close gravitational encounters in the dense cluster, or did the binaries each receive a kick from a supernova in one member? We present new results from our investigation of the optical, X-ray, and radio properties of these binary systems to discuss the probable ejection scenarios. We argue that these binaries may have been ejected via dynamical interactions in the dense cluster environment. © 2007 International Astronomical Union
We explore the hypothesis that some high-velocity runaway stars attain their peculiar velocities in ...
Very massive stars preferentially reside in the cores of their parent clusters and form binary or mu...
Context. A significant fraction (10–20%) of the most massive stars move through space with a high (v...
The production of runaway massive binaries offers key insights into the evolution of close binary st...
The production of runaway massive binaries offers key insights into the evolution of close binary st...
We present results from a radial velocity study of two runaway O-type stars, HD 14633 (ON8.5V) and H...
Identifying binaries among runaway O- and B-type stars offers valuable insight into the evolution of...
peer reviewedThe runaway O-type binaries HD 14633 and HD 15137 were likely ejected from the cluster ...
We explore scenarios for the dynamical ejection of stars BN and x from source I in the Kleinmann-Low...
Runaway stars are ejected from their place of birth in the Galactic disk, with some young B-type run...
Several stars detected moving at velocities near to or exceeding the Galactic escape speed likely or...
We use milli-arcsecond accuracy astrometry (proper motions and parallaxes) from Hipparcos and from r...
Abstract: The runaway O-type binaries HD14633 and HD15137 were likely ejected from the cluster of th...
Runaway OB stars are ejected from their parent clusters via two mechanisms, both involving multiple ...
Context. Young massive clusters provide the opportunity to study the outcome of the star formation p...
We explore the hypothesis that some high-velocity runaway stars attain their peculiar velocities in ...
Very massive stars preferentially reside in the cores of their parent clusters and form binary or mu...
Context. A significant fraction (10–20%) of the most massive stars move through space with a high (v...
The production of runaway massive binaries offers key insights into the evolution of close binary st...
The production of runaway massive binaries offers key insights into the evolution of close binary st...
We present results from a radial velocity study of two runaway O-type stars, HD 14633 (ON8.5V) and H...
Identifying binaries among runaway O- and B-type stars offers valuable insight into the evolution of...
peer reviewedThe runaway O-type binaries HD 14633 and HD 15137 were likely ejected from the cluster ...
We explore scenarios for the dynamical ejection of stars BN and x from source I in the Kleinmann-Low...
Runaway stars are ejected from their place of birth in the Galactic disk, with some young B-type run...
Several stars detected moving at velocities near to or exceeding the Galactic escape speed likely or...
We use milli-arcsecond accuracy astrometry (proper motions and parallaxes) from Hipparcos and from r...
Abstract: The runaway O-type binaries HD14633 and HD15137 were likely ejected from the cluster of th...
Runaway OB stars are ejected from their parent clusters via two mechanisms, both involving multiple ...
Context. Young massive clusters provide the opportunity to study the outcome of the star formation p...
We explore the hypothesis that some high-velocity runaway stars attain their peculiar velocities in ...
Very massive stars preferentially reside in the cores of their parent clusters and form binary or mu...
Context. A significant fraction (10–20%) of the most massive stars move through space with a high (v...
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