Abstract
Mass loss from classical Cepheid variables is suspected on two grounds. First, it may provide an explanation of the persistent discrepancy between estimates of Cepheid masses based on the theories of stellar pulsation and of stellar evolution1. Second, theoretical models of pulsating atmospheres2 suggest that a pulsation mechanism may be responsible for causing, or enhancing, mass loss from Cepheids. In order to test these hypotheses, evidence of anomalous mass loss was sought by making a comparison between the infrared emission of Cepheids and that of nonvariable supergiants in the same luminosity and effective temperature range. A search of the IRAS (Infrared Astronomy Satellite) catalogue3 found a number of Cepheids and stable supergiants which showed emission in at least one of the IRAS wavelength bands. Some long-period Cepheids showed infrared excesses with respect to their non-pulsating counterparts, while emission from Cepheids with periods of less than 10 days was comparable to the levels seen in the stable supergiants. Mass loss rates of up to 7 × 10−7 M⊙ yr−1 were derived from the infrared excesses, which is sufficiently high to have a major effect on the evolution of these stars.
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References
Cox, A. N. A. Rev. Astr. Astrophys. 18, 15–41 (1980).
Willson, L. A. & Bowen, G. Nature 312, 429–431 (1985).
IRAS Point Source Catalog (Joint IRAS Science Working Group, 1985).
Fernie, J. D. & Hube, J. O. Astr. J. 73, 492–499 (1968).
Welch, D. L. et al. Astrophys. J. Suppl. 54, 547–579 (1984).
Schmidt, E. G. Astrophys. J. 172, 679–683 (1972).
Eggen, O. J. Astr. J. 90, 1260–1277 (1985).
Fernie, J. D. & Hube, J. O. Astrophys. J. 168, 437–442 (1971).
Schaltenbrand, R. & Tammann, G. A. Astr. Astrophys. Suppl. 4, 265–314 (1971).
McGonegal, R., McAlary, C. W., McLaren, R. A. & Madore, B. F. Astrophys. J. 269, 641–644 (1983).
Gehrz, R. D. Astrophys. J. 178, 715–725 (1972).
Patterson, R. S. & Neff, J. S. Astrophys. J. Suppl. 41, 215–241 (1979).
Havlen, R. J. Astr. Astrophys. 16, 252–267 (1972).
Cox, A. N. Astrophys. J. 229, 212–222 (1979).
Stothers, R. Astrophys. J. 234, 257–261 (1979).
Gehrz, R. D. & Woolf, N. J. Astrophys. J. 165, 285–294 (1971).
Deasy, H. & Wayman, P. A. Ir. astr. J. (in the press).
Willson, L. A. & Bowen, G. in 3rd Trieste Workshop on the Relationship between Chromospheric/Coronal Heating and Mass Loss (eds Stalio, R. & Zirker, J.) (SISSA-ISAS, Trieste, 1985).
Brunish, W. M., Willson, L. A. & Becker, S. A. Bull. Am. astr. Soc. (in the press).
Schmidt, E. G. Astrophys. J. 285, 501–514 (1984).
Schmidt, E. G. & Parsons, S. B. Astrophys. J. 279, 202–212 (1984).
Cox, A. N., Michaud, G. & Hodson, S. W. Astrophys. J. 222, 621–626 (1978).
Gehrz, R. D. & Woolf, N. J. Astrophys. J. 165, 285–294 (1971).
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Deasy, H., Butler, C. Evidence for mass loss from IRAS observations of classical Cepheids. Nature 320, 726–728 (1986). https://doi.org/10.1038/320726a0
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DOI: https://doi.org/10.1038/320726a0
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