Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-27T19:35:31.719Z Has data issue: false hasContentIssue false

The Effective Temperature Determination

Published online by Cambridge University Press:  30 March 2016

Roger Cayrel*
Affiliation:
Observatoire de Paris, Departement d’Astrophysique Stellaireet Galactique 61, av. de l’Observatoire 75014 Paris, FranceE-mail: [email protected]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The content of my oral contribution has been reduced here to a guide to the recent litterature on the subject.

The effective temperature of a star can be obtained directly by measuring the total flux received on earth from it, and its angular diameter. In principle interferometrie methods could determine both the limb-darkening law of the stellar disk and the angular diameter of the disk. In practice, in order to obtain a decent accuracy on the angular diameter, interferometrie methods have so far borrowed the limb-darkening law from stellar atmosphere theory, in order to concentrate all the observational information on a single parameter. The total number of stellar diameters and effective temperatures obtained by this basic method remains very small (about 30 stars) and concerns exclusively giant or subgiant stars. The reader is invited to look at the following references and those therein (Di Benedetto 1993, Mozurkewich et al. 1991, Alonso et al. 1994). Smalley and Dworetsky (A&A in press) have reinvestigated the old Code et al. (1976) calibration with more recent spatial UV data, for B, A, and F stars, and have found no significant changes. The accuracy of the basic method is at the best of the order of 1.5 %, and there is a deep need for more data, and for doubling the current accuracy. Actually there is a strong effort for developping interferometry both from the ground (ESO VLTI, USNO astrometric interferometer) andfrom space (OSI project, Colavita et al. 1993; GAIA project at ESA). So there is hope for a not to far future.

Type
II. Joint Discussions
Copyright
Copyright © Kluwer 1995

References

Alonso, A., Arribas, S., Martinez-Roger, C. 1994, ALA 282, 684 Google Scholar
Arribas, S., Martinez-Roger, C. 1989 A&A 215, 305 Google Scholar
Axer, M., Fuhrmann, K., Gehren, T., 1994 A&A 271, 451 Google Scholar
Bell, R.A., Gustafsson, B. 1989, MNRAS 236, 653 Bessel M.S.,1979 PASP 91, 589Google Scholar
Blackwell, D., Shallis, M.J. 1977, MNRAS 180, 177 Google Scholar
Blackwell, D.E., Lynas-Grey, A.F., Petford, A.D. 1991 A&A 2545, 567 Google Scholar
Code, A.D., Davis, J., Bless, R.C., HanburyBrown, R. 1976, ApJ 203, 417 CrossRefGoogle Scholar
Colavita, M.M., Shao, M., Rayman, N.D. 1993 Appl.Optics 32, 1789 Google Scholar
Di Benetto, G.P., 1993 A&A 270.315 Google Scholar
Bell, R.A., Gustafsson, B. 1989 MNRAS 238, 653 CrossRefGoogle Scholar
Carney, B.W. 1983 AJ 88, 623 Google Scholar
Carney, B.W., Latham, D.W., Laird, J.B., Aguilar, L.A. 1994 AJ 107, 2240 Google Scholar
Castelli, F., 1991 A&A 251, 106 Google Scholar
Cramer, N., 1984 A&A, 132, 283 Google Scholar
Cramer, N., Maeder, A., 1979 A&A 78, 305 Google Scholar
Edvardsson, B., Andersen, J., Gustafsson, B., Lambert, D.L., Nissen, P.E., Tomkin, J. A&A 275, 101 Google Scholar
Fuhrmann, K. 1993 Thesis, Temperatur und Elementhaäufigkeiten von F- und G-Srernen, München, GermanyGoogle Scholar
Hauck, B., North, P. 1993 A&A 269, 403 Google Scholar
John, T.L., 1988 A&A 193, 189 Google Scholar
King, J.R. 1994 AJ 106, 1206 Google Scholar
Magain, P. 1987, A&A 181, 323 Google Scholar
Mozurkewich, D., Johnston, K.J., Simon, R.S., Bowers, P.F., Gaume, R., Hutter, D.J. Colavita, M.M., Shao, M., Pan, X.P. 1991 AJ, 101, 2207 Google Scholar
Napiwotski, R., Schõnberner, D., Wenske, V. 1991, A&A 268, 653.Google Scholar
Olsen, E.H., 1984, A&A Suppl. 57, 443 Google Scholar
Ridgway, S.T., Joyce, R.R., White, N.M., Wing, R.F. 1980, ApJ 135, 126 Google Scholar
Saxner, M., Hammarbäck, G., 1985, 151, 372 Google Scholar