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2018ApJ...867...93R - Astrophys. J., 867, 93-93 (2018/November-2)

Kinematic identification of young nearby moving groups from a sample of chromospherically active stars in the RAVE catalog.

RAMIREZ-PRECIADO V.G., ROMAN-ZUNIGA C.G., AGUILAR L., SUAREZ G. and DOWNES J.J.

Abstract (from CDS):

The purpose of this study is the identification of young (1 < age < 100 Myr), nearby (d <= 100 pc) moving groups (YNMGs) through their kinematic signature. YNMGs could be the result of the recent dispersal of young embedded clusters, such that they still represent kinematically cold groups, carrying the residual motion of their parental cloud. Using the fact that a large number (∼14,000) of the RAVE sources with evidence of chromospheric activity also present signatures of stellar youth, we selected a sample of solar-type sources with the highest probability of chromospheric activity to look for common kinematics. We made use of radial velocity information from RAVE and astrometric parameters from GAIA DR2 to construct a 6D position-velocity vector catalog for our full sample. We developed a method based on the grouping of stars with similar orientation of their velocity vectors, which we call the Cone Method Sampling. Using this method, we detected 646 sources with high significance in the velocity space, with respect to the average orientation of artificial distributions made from a purely Gaussian velocity ellipsoid with null vertex deviation. We compared this sample of highly significant sources with a catalog of YNMGs reported in previous studies, which yield 75 confirmed members. From the remaining sample, about 50% of the sources have ages younger than 100 Myr, which indicate they are highly probable candidates to be new members of identified or even other YNMGs in the solar neighborhood.

Abstract Copyright: © 2018. The American Astronomical Society. All rights reserved.

Journal keyword(s): stars: activity - stars: chromospheres - stars: kinematics and dynamics

Status in Simbad:  being processed

Simbad objects: 72

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2019.12.12-08:07:27

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