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Spectroscopy, Photometry and Micro-Arcsec Astrometry of Binaries with The Gaia Space Mission and with the Rave Experiment

Published online by Cambridge University Press:  22 February 2018

Tomaž Zwitter  and
Ulisse Munari
Tomaž Zwitter
Affiliation:
University of Ljubljana, Department of Physics, Ljubljana, Slovenia, email: tomaz.zwitter@fmf.uni-lj.si
Ulisse Munari
Affiliation:
Osservatorio Astronomico di Padova, Sede di Asiago, Asiago (VI), Italy, email: munari@pd.astro.it

Abstract

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The GAIA astrometric mission of ESA will be very efficient in discovering binary and multiple stars with any orbital period, from minutes to millions of years. The main parameters of the revised mission design are presented. Next we estimate the fraction of binary stars discovered by means of astrometry, photometry and on-board spectroscopy. Finally we summarize observations that confirm the ability to measure physical parameters like masses, radii and spectroscopic distance from GAIA data alone. GAIA will fly only in 2010, but the radial velocity experiment (RAVE) has started this year. We show that its spectroscopic observations have the capacity to discover a large fraction of so far unknown binary systems.

Resumen

Resumen

La misión astrométrica GAIA de la ESA va a ser muy eficiente para descubrir estrellas dobles y múltiples de cualquier período, desde minutos hasta millones de años. Se presentan los parámetros principales del diseño revisado de la misión. Seestima la fracción de binarias que serán descubiertas mediante astrometría, fotometría y espectroscopía a bordo. Finalmente, se resumen las observaciones que confirman la posibilidad de medir parámetros como las masas, los radios y las distancias espectroscópicas exclusivamente a partir de datos de GAIA. GAIA no volará sino hasta 2010, pero el experimento de velocidades radiales (RAVE) ya comenzó este año. Mostramos que las observaciones espectroscópicas de éste son capaces de descubrir una gran parte de los sistemas binarios aún desconocidos.

Keywords

BinariesEclipsing — BinariesSpectroscopic — StarsFundamental Parameters — Surveys(Gaia, Rave)
Type
Instruments, Techniques and Programs, Present and Future
Information
International Astronomical Union Colloquium , Volume 191: The Environment and Evolution of Double and Multiple Stars , August 2004 , pp. 251 - 258
Copyright
Copyright © Instituto de Astronomia – Mexico 2004

References

Andersen, J. 1991 A&A Review, 3, 91 Google Scholar
Bienaymé, O., & Turon, C. 2002, eds., GAIA: a European Space Project, (Les Ulis: EDP Sciences), EAS Pub. Ser., vol. 2 Google Scholar
Castelli, F., & Munari, U. 2001 A&A, 366, 1003 Google Scholar
Dallaporta, S., Tomov, T., Zwitter, T., & Munari, U. 2002 IBVS, 5312 Google Scholar
Gilmore, G., Perryman, M.A., Lindegren, L., Favata, F., Hog, E., Lattanzi, M., Luri, X., Mignard, F., Röser, S., & de Zeeuw, P.T. 1998, in SPIE Conf., 3350, Astronomical Interferometry, ed. Reasenberg, R.D., 541 Google Scholar
Gombóc, A. 2003, in ASP Conf. Ser., 298, GAIA Spectroscopy, Science and Technology (San Francisco: ASP), ed. Munari, U., 285 Google Scholar
Jordi, C. Babusiaux, C., Katz, D., Porteli, J., & Arenou, F. 2003 UB-SWG-012, http://gaia.am.ub.es/SWG/Documents/UB J3WG.012.pdf Google Scholar
Katz, D. 2000 PhD Thesis, Univ. Paris, 7 Google Scholar
Maceroni, C. 2004, this volumeGoogle Scholar
Marrese, P.M., Munari, U., Siviera, A., Milone, E.F., Zwitter, T., Tomov, T., Boschi, F., & Boeche, C. 2004 A&A, 413, 635 Google Scholar
Milone, E.F. 2003, in ASP Conf. Ser., 298, GAIA Spectroscopy, Science and Technology, ed. Munari, U. (San Francisco: ASP), 303 Google Scholar
Munari, U. 1999 Baltic Astron., 8, 73 Google Scholar
Munari, U., & Tomasella, L. 1999 A&AS, 137, 521 Google Scholar
Munari, U., & Castelli, F. 2000 A&AS, 141, 141 Google Scholar
Munari, U., Agnolin, P., & Tomasella, L. 2001a Baltic Astron., 10, 613 Google Scholar
Munari, U., Tomov, T., Zwitter, T., Milone, E.F., Kallrath, J., Marrese, P.M., Boschi, F.-, Prša, A., Tomasella, L., & Moro, D. 2001b. A&A, 378, 477 Google Scholar
Munari, U. 2002, in ASP Conf. Ser., 279, Exotic Stars as Challenges to Evolution, eds. Tout, C.A. & Van Hamme, W. (San Francisco: ASP), 25 Google Scholar
Munari, U. 2003, ed., ASP Conf. Ser., 298, GAIA Spectroscopy, Science and Technology Google Scholar
Munari, U., Zwitter, T., Katz, D., & Cropper, M. 2003, in ASP Conf. Ser., 298, GAIA Spectroscopy, Science and Technology, ed. Munari, U. (San Francisco: ASP), 275 Google Scholar
Niarchos, P.G., & Manimanis, V.N. 2003 A&A, 405, 263 Google Scholar
Perryman, M.A.C., de Boer, K.S., Gilmore, G., Hog, E., Lattanzi, M.G., Lindegren, L., Luri, X., Mignard, F., Pace, O., & de Zeeuw, P.T. 2001 A&A, 369, 339 Google Scholar
Prša, A. 2003, in ASP Conf. Ser., 298, GAIA Spectroscopy, Science and Technology, ed. Munari, U. (San Francisco: ASP), 457 Google Scholar
Siviero, A., Munari, U., Sordo, R., Daliaporta, S., Zwitter, T., Marrese, P.M., & Milone, E.F. 2004 A&A, accepted, astro-ph/0309691Google Scholar
Steinmetz, M. 2003, in ASP Conf. Ser., 298, GAIA Spectroscopy, Science and Technology, ed. Munari, U. (San Francisco: ASP), 381 Google Scholar
Straižys, V. 1999, ed., GAIA, Baltic Astron., 8, 1 Google Scholar
Vansevičius, V., Kučinskas, A., & Sudžius, J. 2002, eds., Kluwer, Census of the Galaxy: Challenges for Photometry and Spectrometry with GAIA CrossRefGoogle Scholar
Wilson, R.E. 1998 Computing Binary Star Observables, Univ. of Florida Astronomy Dept.Google Scholar
Wilson, R.E. 2003, in ASP Conf. Ser., 298, GAIA Spectroscopy, Science and Technology, ed. Munari, U. (San Francisco: ASP), 313 Google Scholar
Zwitter, T. 2002a A&A, 386, 748 Google Scholar
Zwitter, T. 2002b, in ASP Conf. Ser., 279, Exotic Stars as Challenges to Evolution, eds. Tout, C.A. & Hamme, W.Van (San Francisco: ASP), 31 Google Scholar
Zwitter, T. 2003a, in ASP Conf. Ser., 298, GAIA Spectroscopy, Science and Technology, ed. Munari, U. (San Francisco: ASP), 329 Google Scholar
Zwitter, T. 2003b, in ASP Conf. Ser., 298, GAIA Spectroscopy, Science and Technology, ed. Munari, U. (San Francisco: ASP), 493 Google Scholar
Zwitter, T., & Henden, A. 2003, in ASP Conf. Ser., 298, GAIA Spectroscopy, Science and Technology, ed. Munari, U. (San Francisco: ASP), 489 Google Scholar
Zwitter, T., Munari, U., Marrese, P.M., Prsa, A., Milone, E.F., Boschi, F., Tomov, T., & Siviero, A. 2003 A&A, 404, 333 Google Scholar