Abstract
Binary and multiple stellar systems have importance in three main areas of astronomy and astrophysics. First, because of the relatively simple gravitational interaction at work in the case of binary stars, these systems provide a basic check on stellar structure and evolution theory since the masses may be determined through observation. When these masses can be linked to other properties of the two stars, such as luminosity, color, and radius, they can provide very stringent constraints on stellar models. Second, the statistics of binary and multiple star systems provide clues to star formation mechanisms and environmental effects in the galactic gravitational potential and in clusters. Although a number of good results have been obtained in nearby star clusters and associations, knowledge of the field population has been somewhat limited until recently by a lack of large, complete samples of binaries. However, there appears to be a great deal of promise in this area for the coming decade in part due to astrometric satellites such as Hipparcos and Gaia. Third, the binary scenario is invoked to explain several important types of astrophysical phenomena such as Type Ia supernovae, cataclysmic variables, and stellar x-ray sources. Since the first of these mentioned is a standard candle for the extragalactic distance scale, it may even be said binary stars play a minor role in field of cosmology. However, in this chapter, the focus will mainly be on normal stars in binary and multiple-stellar systems. The basic physics of binaries will be reviewed, and the observational methods in use today will be discussed together with their limitations and prospects for the future. Finally, an overview of the current science in the three main areas mentioned where binaries have a significant impact will be given.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Aarseth, S. J. 2004, Formation and evolution of hierarchical systems, Revista Mexicana de AstronomÃa y AstrofÃsica (Serie de Conferencias), 21, 156–162
Abt, H. A. 2008, The difference between metal-poor and metal-rich binaries, AJ, 135, 722–725
Abt, H. A., & Levy, S. G. 1976, Multiplicity among solar-type stars, Astrophys J Suppl Series, 30, 273–306
Abt, H. A., & Willmarth, D. W. 1999, Binaries in the Praesepe and Coma Star Clusters and their implications for binary evolution, ApJ, 521, 682–690
Aitken, R. G. 1935, The Binary Stars (New York: McGraw-Hill)
Allen, C., Poveda. A., & Herrera, M. A. 1997, The distribution of separations of wide binaries, in Visual Double Stars: Formation, Dynamics, and Evolutionary Tracks, eds. J. A. Docobo et al. (Dordrecht: Kluwer), 133–143
Allen, C., Poveda, A., & Herrera, M. A. 2000, Wide binaries among high-velocity and metal poor stars, A&A, 356, 529–540
Alzner, A. 2004, The orbital elements of a visual binary star, in Observing and Measuring Double Stars, ed. R. Argyle (Berlin, Heidelberg, New York: Springer), 53–62
Andersen, J. 1991, Accurate masses and radii of normal stars, Astron Astrophys Rev, 3, 91–126
Argyle, R. A. 2004, Observing and Measuring Double Stars (Berlin, Heidelberg, New York: Springer)
Bagnuolo, W. G. 1988, Binary-intensity ratios by the fork algorithm, Opt Lett, 13, 907–909
Balega, I. I., Balega, Y. Y., Hofmann, K.-H., Maksimov, A. F., Pluzhnik, E. A., Schertl, D., Shkhagosheva, Z. U., & Weigelt, G. 2002, Speckle interferometry of nearby multiple stars, A&A, 385, 87–93
Balega, I. I., Balega, Y. Y., Hofmann, K.-H., Pluzhnik, E. A., Schertl, D., Shkhagosheva, Z. U., & Weigelt, G. 2005, Orbits of new Hipparcos binaries. I, A&A, 433, 591–596
Balega, I. I., Balega, Y. Y., Hofmann, K.-H., Malogolovets, E. V., Shkhagosheva, Z. U., & Weigelt, G. 2006, Orbits of new Hipparcos binaries. II, A&A, 448, 703–707
Balega, Y. Y., Beuzit, J.-L., Delfosse, X., Forveille, T., Perrier, C., Mayor, M., Ségransan, D., Udry, S., Tokovinin, A. A., Schertl, D., Weigelt, G., Balega, I. I., & Malogolovets, E. V. 2007, Accurate masses of low mass stars GJ 765.2AB (\(0.83\mathrm{M}_{\dot{o}} + 0.76\mathrm{M}_{\dot{o}}\)), A&A, 464, 635–640
Bate, M. R., Bonnell, I. A., & Bromm, V. 2003, The formation of a star cluster: predicting the properties of stars and brown dwarfs, MNRAS, 339, 577–599
Bates, R. H. T., & Cady, F. M. 1980, Towards true imaging by wideband speckle interferometry, Opt Commun, 32, 365–369
Berger, D. H., Gies, D. R., McAlister, H. A., ten Brummelaar, T. A., Henry, T. J., Sturmann, J., Sturmann, L., Turner, N. H., Ridgway, S. T., & Aufdenberg, J. P. 2006, First results from the CHARA Array. IV. The inferferometric radii of low-mass stars, ApJ, 644, 475–483
Bonnell, I. A. 1994, A new binary formation mechanism, MNRAS, 269, 837–848
Cayrel de Strobel, G., Soubiran, C., & Ralite, N. 2001, A catalogue of [Fe/H] determinations of F, G, K stars: 2001 Edition, A&A, 373, 159–163
Clarke, C. J. 1999, Fragmentation of cold slabs: application to the formation of clusters, MNRAS, 307, 328–336
Clarke, C. J., & Pringle, J. E. 1993, Accretion disc response to a stellar fly-by, MNRAS, 261, 190–202
Cvetkovi, Z. 2008, First orbits for five binaries, AJ, 136, 1746–1752
Davidson, J. W., Jr., Baptista, B. J., Horch, E. P., Franz, O. G., & van Altena, W. F. 2009, A photometric analysis of seventeen binary stars using speckle imaging, AJ, 138, 1354–1364
Docobo, J. A. 1985, On the analytic calculation of visual double star orbits, Celest Mech, 36, 143–153
Duchêne, G. 1999, Binary fraction in low-mass star forming regions: a reexamination of the possible excess and implications, A&A, 341, 547–552
Duquennoy, A., & Mayor, M. 1991, Multiplicity among solar-type stars in the solar neighborhood, A&A, 248, 485–524
ESA, 1997, The Hipparcos and Tycho catalogues, European Space Agency SP 1200
Franz, O. G., Wasserman, L. H., Nelan, E., Lattanzi, M. G., Bucciarelli, B., & Taff, L. G. 1992, Binary star observations with the Hubble Space Telescope fine guidance sensors. II – Bright Hyades, AJ, 103, 190–196
Ghez, A. M., Neugebauer, G., & Matthews, K. 1993, The multiplicity of T Tauri stars in the star forming regions Taurus-Auriga and Ophiuchus-Scorpius: a 2.2 micron speckle imaging survey, AJ, 106, 2005–2023
Ghez, A. M., White, R. J., & Simon, M. 1997, High spatial resolution imaging of pre–mainsequence binary stars: resolving the relationship between disks and close companions, ApJ, 490, 353–367
Griffin, R. F. 1970, Photoelectric radial velocities of 87 seventh-magnitude K stars previously observed by Redman, MNRAS, 148, 211–225
Hanbury Brown, R., Davis, J., & Allen, L. R. 1967, The stellar interferometer at Narrabri Observatory I. A. Description of the instrument and the observational procedure, MNRAS, 137, 375–392
Hanbury Brown, R., Davis, J., Herbison-Evans, D., & Allen, L. R. 1970, A study of γ 2 Velorum with a stellar intensity interferometer, MNRAS, 148, 103–117
Hartkopf, W. I. 1998, Private communication
Hartkopf, W. I., Mason, B. D., & McAlister, H. A. 1996, Binary star orbits from speckle interferometry. VIII. Orbits of 37 close visual systems, AJ, 111, 370–392. doi:10.1086/117790
Henry, T. J., & McCarthy, D. W., Jr. 1990, A systematic search for brown dwarfs orbiting nearby stars, ApJ, 350, 334–347
Henry, T. J., & McCarthy, D. W., Jr. 1993, The mass-luminosity relation for stars of mass 1.0 to \(0.08\mathrm{M}_{\dot{o}}\), AJ, 106, 773–789
Henry, T. J., Franz, O. G., Wasserman, L. H., Benedict, G. F., Shelus, P. J., Ianna, P. A., Kirkpatrick, J. D., & McCarthy, D. W., Jr. 1999, The optical mass-luminosity relation at the end of the main sequence (\(0.08 --0.20\mathrm{M}_{\dot{o}}\), AJ, 512, 864–873
Herschel, W. 1803, Account of the changes that have happened, during the last twenty-five years, in the relative situation of double-stars; with an investigation of the cause to which they are owing, Philos Trans R Soc Lond, 93, 339–382
Horch, E. P., Falta, D., Anderson, L. M., DeSousa, M. D., Miniter, C. M., Ahmed, T., & van Altena, W. F. 2010, CCD speckle observations of binary stars with the WIYN Telescope. VI. Measures during 2007–2008, AJ, 139, 205–215
Kuijken, K., & Gilmore, G. 1989a, The mass distribution in the galactic disc. I. Technique to determine the surface mass density of the disc near the sun, MNRAS, 239, 571–603
Kuijken, K., & Gilmore, G. 1989b, The mass distribution in the galactic disc. II. Determination of the surface mass density of the galactic disk near the sun, MNRAS, 239, 605–649
Kuijken, K., & Gilmore, G. 1989c, The mass distribution in the galactic disc. III. The local volume mass density, MNRAS, 239, 651–664
Lada, C. J. 2006, Stellar multiplicity and the initial mass function: most stars are single, ApJ, 640, L63–L66
Larson, R. B. 2001, Implications of Binary Properties for Theories of Star Formation, in The Formation of Binary Stars, Proc. IAU Symp. 200, eds. H. Zinnecker, & R. D. Mathieu (Dordrecht: Reidel), 93
Larson, R. B. 2002, The role of tidal interactions in star formation, MNRAS, 332, 155–164
Leinert, Ch., Zinnecker, H., Weitzel, N., Christou, J., Ridgway, S. T., Jameson, R., & Haas, M. 1993, A systematic search for young binaries in Taurus, A&A, 278, 129–149
Luyten, W. J. 1927, Sixteen double stars with large proper motion, Harv Coll Observatory Bull, 852, 14–15
Luyten, W. J. 1997, LDS catalogue: doubles with common proper motion (Luyten 1940–87) (Minnesota III: Publ. Astr. Obs. Univ.), part 3, 35
Lohmann, A., Weigelt, G., & Wirnitzer, B. 1983, Speckle masking in astronomy – triple correlation theory and applications, Appl Opt, 22, 4028–4037
Lombardi, J. C., Warren, J. S., Rasio, F. A., Sills, A., & Warren, A. R. 2002, Stellar collisions and the interior structure of blue stragglers, ApJ, 568, 939–953.
Martin, C., Mignard, F., Hartkopf, W. I., & McAlister, H. A. 1998, Mass determinations of astrometric binaries with Hipparcos. III. New results for 28 systems, A&AS, 133, 149–162
McDonald, J. M., & Clarke, C. J. 1993, Dynamical biasing in binary star formation – implications for brown dwarfs in binaries, MNRAS, 262, 800–804
Mason, B. D., McAlister, H. A., Hartkopf, W. I., Griffen, R. F., & Griffen, R. E. M. 1997, Binary star orbits from speckle interferometry. X. Speckle-spectroscopic orbits of HR 233, 36 Tau and 73 Leo, AJ, 114, 1607–1622
Mason, B. D., Henry, T. J., Hartkopf, W. I., ten Brummelaar, T., & Soderblom, D. R. 1998, A multiplicity survey of chromospherically active and inactive stars, AJ, 116, 2975–2983
Mathieu, R. D. 1989, Spectroscopic binaries among low-mass pre-main sequence stars, Highlights Astron, 8, 111
Mathieu, R. D. 1994, Pre-main sequence binary stars, ARAA, 32, 465–530
Mathieu, R. D. 2000, The WIYN open cluster study, in Stars Clusters and Associations, ASP Conference Series, Vol. 198, eds. R. Pallavicini et al. (San Francisco: Astronomical Society of the Pacific), 517–532
Mayor, M., Imbert, M., Andersen, J., Ardeberg, A., Baranne, A., Benz, W., Ischi, E., Lindgren, H., Martin, N., Maurice, E., Nordstrom, B., & Prevot, L. 1983, Radial velocities of southern stars obtained with the photoelectric scanner CORAVEL. I – observations of 169 giant stars in 47 Tucanae, A&AS, 54, 495–503
Mazeh, T., & Zucker, S. 1994, TODCOR: a two-dimensional correlation technique to analyze stellar spectra in search of faint companions, Astrophys Space Sci, 212, 349–356
Mazeh, T., Prato, L., Simon, M., Goldberg, E., Norman, D., & Zucker, Z. 2002, Infrared detection of low-mass secondaries in spectroscopic binaries, ApJ, 564, 1007–1014
Michell, J. 1767, An inquiry into the probable parallax, and magnitude of the fixed stars, from the quantity of light which they afford us, and the particular circumstances of their situation, Philos Trans (1683–1775) 57, 234–264
Muterspaugh, M. W., Lane, B. F., Fekel, F. C., Konacki, M., Burke, B. F., Kulkarni, S. R., Colavita, M. M., Shao, M., & Wiktorowicz, S. J. 2008, Masses, luminosities, and orbital coplanarities of the μ Orionis quadruple-star system from phases differential astrometry, AJ, 135, 766–776. doi: 10.1088/0004-6256/135/3/766
Nordström, B., Mayor, M., Andersen, J., Holmberg, J., Pont, F., Jorgensen, B. R., Olsen, E. H., Udry, S., & Mowlavi, N. 2004, The Geneva-Copenhagen survey of the Solar neighbourhood. Ages, metallicities, and kinematic properties of 14 000 F and G dwarfs, A&A, 418, 989–1019
Õpik, E. 1927, Measures of Double Stars (1924–1926), Publications de L’Observatoire Astronomique de l’Universite de Tartu, 26, 1–2
Patience, J., Ghez, A. M., Reid, I. N., Weinberger, A. J., & Matthews, K. 1998, The multiplicity of the Hyades and its implications for binary star formation and evolution, AJ, 115, 1972–1988
Pfahl, E., Rappaport, S., & Podsiadlowski, P. 2002a, A comprehensive study of neutron star retention in globular clusters, ApJ, 573, 283–305
Pfahl, E., Rappaport, S., & Podsiadlowski, P. 2002b, On the population of wind-accreting neutron stars in the galaxy, ApJ, 571, L37–L40
Popper, D. 1980, Stellar masses, ARAA, 18, 115–164
Pourbaix, D. 2002, Simultaneous least-squares adjustment of visual and spectroscopic observations of binary stars, A&AS, 131, 377–382. doi:10.1051/aas:1998275
Prato, L., Simon, M., Mazeh, T., McLean, I. S., Norman, D., & Zucker, S. 2002, The smallest mass ratio young star spectroscopic binaries, ApJ, 569, 863–871
Prugniel, P., & Soubiran, C. 2001, A database of high and medium-resolution stellar spectra, A&A, 369, 1048–1057
Richichi, A., & Percheron, P. 2002, CHARM: a catalog of high angular resolution measurements. A&A, 386, 492–503. doi: 10.1051/0004-6361:20020236
Shara, M. M., Saffer, R. A., & Livio, M. 1997, The first direct measurement of the mass of a blue straggler in the core of a globular cluster: BSS 19 in 47 Tucanae, ApJ, 489, L59–L62
Siegel, M. H., Majewski, S. R., Reid, I. N., & Thompson, I. B. 2002, Star Counts Dedivivus. IV. Density laws through photometric parallaxes, ApJ, 578, 151–175
Söderhjelm, S. 1999, Visual binary orbits and masses post Hipparcos, A&A, 341, 121–140
Steinmetz, M., Zwitter, T., Siebert, A., Watson, F. G., Freeman, K. C., Munari, U., Campbell, R., Williams, M., Seabroke, G. M., Wyse, R. F. G., Parker, Q. A., Bienaymé, O., Roeser, S., Gibson, B. K., Gilmore, G., Grebel, E. K., Helmi, A., Navarro, J. F., Burton, D., Cass, C. J. P., Dawe, J. A., Fiegert, K., Hartley, M., Russell, K. S., Saunders, W., Enke, H., Bailin, J., Binney, J., Bland-Hawthorn, J., Boeche, C., Dehnen, W., Eisenstein, D. J., Evans, N. W., Fiorucci, M., Fulbright, J. P., Gerhard, O., Jauregi, U., Kelz, A., Mijovi, L., Minchev, I., Parmentier, G., Peñarrubia, J., Quillen, A. C., Read, M. A., Ruchti, G., Scholz, R.-D., Siviero, A., Smith, M. C., Sordo, R., Veltz, L., Vidrih, S., von Berlepsch, R., Boyle, B. J., & Schilbach, E. 2006, The Radial Velocity Experiment (RAVE): first data release, AJ, 132, 1645–1668
Sterzik, M. F., & Tokovinin, A. A. 2002, Relative orientation of orbits in triple stars, A&A, 384, 1030–1037
Swihart, T. L. 1992, Quantitative Astronomy (Upper Saddle River: Prentice Hall)
ten Brummelaar, T., Mason, B. D., McAlister, H. A., Roberts, L. C., Jr., Turner, N. H., Hartkopf, W. I., & Bagnuolo, W. G., Jr. 2000, Binary star differential photometry using the adaptive optics system at Mount Wilson Observatory, AJ, 119, 2403–2414
Tohline, J. E. 2002, The origin of binary stars, ARAA, 40, 349–385. doi:10.1146/annurev.astro. 40.060401.093810
Torres, G., Claret, A., & Young, P. A. 2009, Binary orbit, physical properties, and evolutionary state of Capella (α Aurigae), ApJ, 700, 1349–1381
Torres, G., Andersen, J., & Giménez, A. 2010, Accurate masses and radii of normal stars: modern results and applications, Astron Astrophys Rev. doi:10.1007/s00159-009-0025-1
Udry, S., Mayor, M., Latham, D. W., Stefanik, R. P., Torres, G., Mazeh, T., Goldberg, D., Andersen, J., & Nordstrom, B. 1998, A Survey for Spectroscopic Binaries in a Large Sample of G Dwarfs, in ASP Conf. Ser. 154, The Tenth Cambridge Workshop on Cool Stars, Stellar Systems and the Sun, eds. R. A. Donahue, & J. A. Bookbinder (San Francisco: ASP), 2148–2155
Weinberg, M. D., Shapiro, S. L., & Wasserman, I. 1987, The dynamical fate of wide binaries in the solar neighborhood, ApJ, 312, 367–389
Zinnecker, H., Köhler, R., & Jahreiß, H. 2004, Binary statistics among population II stars, Revista Mexicana de AstronomÃa y AstrofÃsica (Serie de Conferencias), 21, 33–36
Zeilik, M., & Gregory, S. A. 1998, Introductory Astronomy and Astrophysics (New York: Saunders College Publishing)
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2013 Springer Science+Business Media Dordrecht
About this entry
Cite this entry
Horch, E. (2013). Binaries and Multiple Stellar Systems. In: Oswalt, T.D., Barstow, M.A. (eds) Planets, Stars and Stellar Systems. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-5615-1_13
Download citation
DOI: https://doi.org/10.1007/978-94-007-5615-1_13
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-007-5614-4
Online ISBN: 978-94-007-5615-1
eBook Packages: Physics and AstronomyReference Module Physical and Materials ScienceReference Module Chemistry, Materials and Physics