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Surveys of Spectroscopic Binaries at the Center for Astrophysics

Published online by Cambridge University Press:  12 April 2016

D.W. Latham*
Affiliation:
Harvard-Smithsonian Center for Astrophysics, 60 Garden Street, Cambridge, MA 02138, USA

Abstract

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For more than a decade we have been measuring stellar radial velocities with three almost identical digital speedometers on telescopes in Arizona and Massachusetts. By now we have accumulated nearly 100,000 measurements with a typical precision of better than 1 km s-1. One of the main scientific applications has been surveys of binaries in several different stellar environments, to study the frequency and orbital characteristics of binaries in a variety of stellar populations. A main goal is to confront theories of binary formation and evolution with observational results. With various collaborators we have investigated the binary populations among pre-main-sequence stars, in the Hyades and M67 open clusters, and in the Carney-Latham proper-motion sample. Thus, we have data for coeval samples of binaries covering a wide range of ages. One result is clear evidence for evolution of binary orbits. The orbital period at which there is a transition from circular to eccentric orbits gets longer for older samples of binaries, presumably due to tidal circularization. Another result is that the frequency of binaries does not seem to depend on the stellar population. Binaries are just as common among the oldest stars in the halo of our Galaxy as among the younger stars in the disk.

Type
Spectroscopic Studies
Copyright
Copyright © Astronomical Society of the Pacific 1992

References

Kurtz, M.J., Mink, D.J., Wyatt, W.F., Fabricant, D.G., Torres, G., Kriss, G.A., & Tonry, J.L. 1992, In Astronomical Data Analysis Software and Systems ed. Worrall, D.M., Biemesderfer, C., & Barnes, J., Astron. Soc. Pacific Conf. Ser. 25, 432 Google Scholar
Kurucz, R.L. 1992, In Precision Photometry: Astrophysics of the Galaxy ed. Philip, A.G.D., Upgren, A.R., & Janes, K.A. (L. Davis Press, Schenectady), in pressGoogle Scholar
Latham, D.W. 1985, in IAU Colloquium 88, Stellar Radial Velocities ed. Philip, A.G.D. & Latham, D.W. (L. Davis Press, Schenectady), 21 Google Scholar
Latham, D.W., Mathieu, R.D., Milone, A.E.E., & Davis, R.J. 1992a, this ColloquiumGoogle Scholar
Latham, D.W., Mazeh, T., Stefanik, R.P., Davis, R.J., Carney, B.W., Torres, G., & Laird, J.B. 1992b, this ColloquiumGoogle Scholar
Latham, D.W. & Stefanik, R.P. 1992, In Highlights in Astronomy ed. Bergeron, J., 9, in pressGoogle Scholar
Mathieu, R.D. 1992, this ColloquiumGoogle Scholar
Mathieu, R.D., Duquennoy, A., Latham, D.W., Mayor, M., Mazeh, T., & Mermil-liod, J.-C. 1992, In Workshop on Binaries as Tracers of Stellar Formation ed. Duquennoy, A. & Mayor, M. (Cambridge University Press, Cambridge), in pressGoogle Scholar
Stefanik, R.P. & Latham, D.W. 1992, this ColloquiumGoogle Scholar
Tonry, J.L. & Davis, M. 1979, AJ, 84, 1511 CrossRefGoogle Scholar
Wyatt, W.F. 1985, in IAU Colloquium 88, Stellar Radial Velocities ed. Philip, A.G.D. & Latham, D.W. (L. Davis Press, Schenectady), 123 Google Scholar