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On ultraviolet fluxes, bolometric corrections and effective temperatures of late B to F stars

Published online by Cambridge University Press:  14 August 2015

John Davis  and
Robert J. Webb
John Davis
Affiliation:
Cornell-Sydney University Astronomy Centre, University of Sydney, Sydney, Australia
Robert J. Webb
Affiliation:
Cornell-Sydney University Astronomy Centre, University of Sydney, Sydney, Australia

Abstract

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Observed ultraviolet fluxes have been compared with the predictions of line blanketed model atmospheres for stars of spectral type later than B5. The comparison reveals significant differences which increase towards later spectral type and which lead to differences between empirical and theoretical bolometric corrections. Empirical bolometric corrections for the spectral range B8–F5 have been computed from a combination of ultraviolet, visual and infrared observational data. These have been used to derive empirically based effective temperatures for five A and F type stars for which angular diameter measurements are available.

Type
Part I: Stellar Fluxes
Information
Symposium - International Astronomical Union , Volume 36: Ultraviolet Stellar Spectra and Related Ground-Based Observations , 1970 , pp. 90 - 99
Copyright
Copyright © Reidel 1970 

References

Bahner, K.: 1963, Astrophys. J. 138, 1314.CrossRefGoogle Scholar
Bless, R. C., Code, A. D., Houck, T. E., McNall, J. F., and Taylor, D. J.: 1968, Astrophys. J. 153, 557.Google Scholar
Brown, R. Hanbury, Davis, J., Allen, L. R., and Rome, J. M.: 1967, Monthly Notices Roy. Astron. Soc. 137, 393.Google Scholar
Chubb, T. A. and Byram, E. T.: 1963, Astrophys. J. 138, 617.Google Scholar
Code, A. D.: 1960, in Stars and Stellar Systems , Vol. VI, Stellar Atmospheres (ed. by Greenstein, J. L.), University of Chicago Press, Chicago, Chapter 2, p. 50.Google Scholar
Davis, J. and Webb, R. J.: 1970, Astrophys. J. 159 (in press).Google Scholar
Detwiler, C. R., Garrett, D. L., Purcell, J. D., and Tousey, R.: 1961, Ann. Geophys. 17, 263.Google Scholar
Gingerich, O.: 1969, private communication.Google Scholar
Harris, D. L. 1963, in Stars and Stellar Systems , Vol. III, Basic Astronomical Data (ed. by Strand, K. Aa.), University of Chicago Press, Chicago, Chap. 14, p. 263.Google Scholar
Hayes, D.: 1967, unpublished dissertation, University of California, Los Angeles.Google Scholar
Johnson, H. L.: 1965, Comm. Lunar Planetary Lab. 3, 73.Google Scholar
Johnson, H. L.: 1966, Ann. Rev. Astron. Astrophys. 4, 193.Google Scholar
Johnson, H. L., Mitchell, R. I., Iriarte, B., and WiśAniewski, W. Z.: 1966, Comm. Lunar Planetary Lab. 4, 99.Google Scholar
Kuiper, G. P.: 1938, Astrophys. J. 88, 429.Google Scholar
Labs, D. and Neckel, H.: 1968, Z. Astrophys. 69, 1.Google Scholar
Matthews, T. A. and Sandage, A. R.: 1963, Astrophys. J. 138, 30.Google Scholar
Mihalas, D.: 1965, Astrophys. J. 141, 564.Google Scholar
Mihalas, D.: 1966, Astrophys. J. Suppl. Ser. 13, 1.Google Scholar
Mihalas, D. and Morton, D. C.: 1965, Astrophys. J. 142, 253.Google Scholar
Oke, J. B. and Conti, P. S. 1966, Astrophys. J. 143, 134.Google Scholar
Popper, D. M.: 1959, Astrophys. J. 129, 647.Google Scholar
Smith, A. M.: 1967, Astrophys. J. 147, 158.Google Scholar
Smith, A. M. 1969, Table of Photometric Observations supplementary to Astrophys. J. 147, 158 (private communication).Google Scholar
Stecher, T. P.: 1969, Astron. J. 74, 98.Google Scholar
Strom, S. E. and Strom, K. M.: 1969, Astrophys. J. 155, 17.Google Scholar
Van Citters, G. W. and Morton, D. C.: 1969, private communication.Google Scholar
Willstrop, R. V.: 1965, Mem. Roy. Astron. Soc. 69, 83.Google Scholar
Wolff, S. C., Kuhi, L. V., and Hayes, D.: 1968, Astrophys. J. 152, 871.Google Scholar