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Dust Emission from IRC+10216

Published online by Cambridge University Press:  25 May 2016

Željko Ivezić  and
Moshe Elitzur
Željko Ivezić
Affiliation:
University of Kentucky Lexington, KY 40506-0055, U.S.A.
Moshe Elitzur
Affiliation:
University of Kentucky Lexington, KY 40506-0055, U.S.A.

Abstract

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Infrared emission from the dust shell around IRC+10216 is analysed in detail, employing a self-consistent model for radiatively driven winds around late-type stars that couples the equations of motion and radiative transfer in the dust. The resulting model provides agreement with the wealth of available data, including the spectral energy distribution in the range 0.5-1000 μm, and visibility and array observations. Previous conclusions about two dust shells, derived from modelling the data with a few single-temperature components of different radii, are not supported by our results. The IR properties vary with the stellar phase, reflecting changes in both the dust condensation radius r1 and the overall optical depth τ - as the luminosity increases from minimum to maximum, r1 increases while τ decreases. We find that the angular size of the dust condensation zone varies from 0.″3 at minimum light to 0.″5 at maximum. The shortage of flux at short wavelengths encountered in previous studies is resolved by employing a grain size distribution that includes grains larger than ∼ 0.1 μm, required also for the visibility fits. This distribution is in agreement with the one recently proposed by Jura in a study that probed the outer regions of the envelope. Since our constraints on the size distribution mostly reflect the envelope's inner regions, the agreement of these independent studies is evidence against significant changes in grain sizes through effects like sputtering or grain growth after the initial formation at the dust condensation zone.

Type
Session VIII — Circumstellar Shells
Information
Symposium - International Astronomical Union , Volume 177: The Carbon Star Phenomenon , 2000 , pp. 399 - 404
Copyright
Copyright © Kluwer 2000 

References

Benson, J. A., Turner, N. H. & Dyck, H. M. 1989, AJ, 97, 1763 CrossRefGoogle Scholar
Blanco, A., Borghesi, A., Fonti, S. & Orofino, V. 1994, A&A, 283, 561 Google Scholar
Bloemhof, E. E., Danchi, W. C., Townes, C. H. & McLaren, R. A. 1988, ApJ, 333, 300 CrossRefGoogle Scholar
Danchi, W. C., Bester, M., Degiacomi, C. G., McCullough, P. R. & Townes, C. H. 1990, ApJ, 359, L59 Google Scholar
Danchi, W. C., Bester, M., Degiacomi, C. G., Greenhill, L. J. & Townes, C. H. 1994, AJ, 107, 1469 Google Scholar
Dyck, H. M., Zuckerman, B., Leinert, Ch. & Beckwith, S. 1984, ApJ, 287, 801 CrossRefGoogle Scholar
Dyck, H. M., Zuckerman, B., Howell, R. R. & Beckwith, S. 1987, PASP, 99, 99 Google Scholar
Elitzur, M. & Ivezić, Ž. 2000, in IAU Symp. 177: The Carbon Star Phenomenon, ed. Wing, R. F. (Kluwer), p. 391 Google Scholar
Hanner, M. S. 1988, in Infrared Observations of Comets Halley and Wilson and Properties of the Grains, ed. Hanner, M.S., NASA CP-3004, p. 22 Google Scholar
Ivezić, Ž. & Elitzur, M. 1995, ApJ, 445, 415 (IE95) CrossRefGoogle Scholar
Ivezić, Ž. & Elitzur, M. 1996a, MNRAS, 279, 1011 CrossRefGoogle Scholar
Ivezić, Ž. & Elitzur, M. 1996b, MNRAS, 279, 1019 CrossRefGoogle Scholar
Jura, M. 1994, ApJ, 434, 713 CrossRefGoogle Scholar
Le Bertre, T. 1987, A&A, 176, 107 Google Scholar
Le Bertre, T. 1988, A&A, 203, 85 Google Scholar
Mariotti, J. M., Chelli, A., Foy, R., Léna, P., Sibille, F. & Tchountonov, G. 1983, A&A, 120, 237 Google Scholar
Mathis, J. S., Rumpl, W. & Nordsieck, K. H. 1977, ApJ, 217, 425 Google Scholar
McCarthy, D. W., Howell, R. & Low, F. J. 1980, ApJ, 235, L27 Google Scholar
Netzer, N. & Elitzur, M. 1993, ApJ, 410, 701 CrossRefGoogle Scholar
Pégourié, B. 1988, A&A, 194, 335 Google Scholar
Rengarajan, T. N., Fazio, G. G., Maxson, C. W., McBreen, B., Serio, S. & Sciortino, S. 1985, ApJ, 289, 630 CrossRefGoogle Scholar
Selby, M. J., Wade, R. & Sanchez Magro, C. 1979, MNRAS, 187, 553 CrossRefGoogle Scholar
Sutton, E. C., Betz, A. L. & Storey, J.W. V. 1979, ApJ, 230, L105 Google Scholar