Bibcode
Dupuy, T. J.; Allen, P. R.; Kraus, A. L.; Biller, B.; Blake, C. H.; Davison, C.; Deacon, N. R.; Duchêne, G.; Geller, A. M.; King, R. R.; Law, N. M.; Nguyen, D. C.; Reipurth, B.; Winters, J. G.; Zhang, Z. H.
Bibliographical reference
Astronomische Nachrichten, Vol.334, Issue 1-2, p.36
Advertised on:
2
2013
Citations
2
Refereed citations
2
Description
Multiple systems have long been used to probe the origin and evolution
of stars of all masses. Only in the past 10-15 years have such studies
been extended to brown dwarfs and the lowest mass stars through binary
surveys of both young star forming regions and the older field
population. In addition, a groundswell of interest in M dwarfs in recent
years has resulted in large, modern datasets for these most common stars
in the Galaxy, thereby enabling renewed perspectives on their
multiplicity properties. These latest observational results have in turn
fueled the many theories competing to explain the formation of low-mass
stars and brown dwarfs. This Cool Stars 17 splinter session examined the
current state of this field by reviewing results from the numerous
observational techniques - radial velocities, astrometry, direct
imaging, and synoptic surveys - that have been used to study
multiplicity from the earliest embedded protostars to objects in young
star forming regions, old and intermediate-age clusters, as well as the
more heterogeneous field population.