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Physical Processes Responsible for the Removal of Circumstellar Disks

Published online by Cambridge University Press:  25 May 2016

Doug Johnstone
Doug Johnstone*
Affiliation:
Dept. of Astronomy, University of Toronto, Ontario, Canada

Abstract

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The most likely processes responsible for the removal of circumstellar disks around young stars are reviewed with emphasis on the physical state of the disk during the period of destruction and the timescale for disk removal. Four disk dispersal mechanisms are discussed in detail: 1) viscous accretion of material onto the central source, 2) close stellar encounters, 3) stellar winds, and 4) photoevaporation by ultraviolet radiation. While viscous accretion is shown to be efficient in the inner regions of disks (r < 10 AU), photoevaporation is the principal process of disk dispersal at large radii (r > 10 AU). The commonly held view that stellar winds removed the remnant Solar Nebula is seriously questioned.

Type
Part 7. Circumstellar Disks
Information
Symposium - International Astronomical Union , Volume 197: Astrochemistry: From Molecular Clouds to Planetary Systems , 2000 , pp. 403 - 413
Copyright
Copyright © Astronomical Society of the Pacific 2000 

References

Adams, F.C., Emerson, J.P., & Fuller, G.A. 1990, ApJ, 357, 60 Google Scholar
Bally, J., Sutherland, R.S., Devine, D., & Johnstone, D. 1998, AJ, 116, 293 Google Scholar
Beckwith, S.V.W., Sargent, A.I., Chini, R.S., & Guesten, R. 1990, AJ, 99, 924 Google Scholar
Bodenheimer, P. & Pollack, J.B. 1986, Icarus, 67, 39 Google Scholar
Bonnell, I. & Kroupa, P. 1998, in The Orion Complex Revisited, eds. McCaughrean, M.J. & Burkert, A. (ASP), in press Google Scholar
Cameron, A.G.W. 1973, Icarus, 18, 407 Google Scholar
Cameron, A.G.W. 1995, Meteoritics, 30, 133 Google Scholar
Cantó, J. & Raga, A. 1991, ApJ, 372, 646 Google Scholar
Clarke, C.J. & Pringle, J.E. 1993, MNRAS, 261, 190 Google Scholar
Elmegreen, B.G. 1979, A&A, 80, 77 Google Scholar
Greenberg, R., Hartmann, W.K., Chapman, C.R., & Wacker, J.F. 1978, Icarus, 35, 1 Google Scholar
Greenberg, R., Weidenschilling, S., Chapman, C.R., & Davis, D.R. 1984, Icarus, 59, 87 Google Scholar
Hall, S.M., Clarke, C.J., & Pringle, J.E. 1996, MNRAS, 278, 303 Google Scholar
Hartmann, L., Calvet, N., Gullbring, E., & D'Alessio, P. 1998, ApJ, 495, 385 Google Scholar
Hayashi, C., Nakazawa, K., & Nakagawa, Y. 1985, in Protostars and Planets II (U. Ariz. Press), 1100 Google Scholar
Heller, C.H. 1995, ApJ, 455, 252 Google Scholar
Hollenbach, D., Johnstone, D., & Shu, F. 1993, in Massive Stars: Their Lives in the Interstellar Medium, eds. Cassinelli, J.P. & Churchwell, E.B., ASPCS 35, 26 Google Scholar
Hollenbach, D., Johnstone, D., Lizano, S., & Shu, F. 1994, ApJ, 428, 654 Google Scholar
Hollenbach, D.J., Yorke, H.W., & Johnstone, D. 1999 in Protostars and Planets IV, eds. Mannings, V.G. et al. (Univ. Ariz.), in press.Google Scholar
Horedt, G.P. 1978, A&A, 64, 173 Google Scholar
Horedt, G.P. 1980, A&A, 92, 267 Google Scholar
Johnstone, D. & Hollenbach, D.J. 2000, in preparation Google Scholar
Johnstone, D., Hollenbach, D., & Bally, J. 1998, ApJ, 499, 758 Google Scholar
Königl, A. 1995, Rev. Mex. AC, 1, 275 Google Scholar
Larwood, J.D. 1997, MNRAS, 290, 490 Google Scholar
Laughlin, G. & Bodenheimer, P. 1994, ApJ, 436, 33 Google Scholar
Lin, D.N.C. & Papaloizou, J. 1985, in Protostars & Planets II (Univ. Ariz.), 981 Google Scholar
Lin, D.N.C. & Papaloizou, J. 1986a, ApJ, 307, 395 Google Scholar
Lin, D.N.C. & Papaloizou, J. 1986b, ApJ, 309, 846 Google Scholar
Lissauer, J.J. 1987, Icarus, 69, 249 Google Scholar
Lissauer, J.J. 1993, ARAA, 31, 129 Google Scholar
Marcy, G.W., Cochran, W.D., & Mayor, M. 1999, in Protostars and Planets IV, eds. Mannings, V.G. et al. (Univ. Ariz.), in press Google Scholar
Mizuno, H. 1980, Prog. Theor. Phys., 64, 544 Google Scholar
Nakagawa, Y., Hayashi, C., & Nakazawa, K. 1983, Icarus, 54, 361 Google Scholar
O'Dell, C.R. 1998, AJ, 115, 263 Google Scholar
Ouyed, R. & Pudritz, R. 1997a, ApJ, 482, 712 Google Scholar
Ouyed, R. & Pudritz, R. 1997b, ApJ, 484, 794 Google Scholar
Papaloizou, J. & Lin, D.N.C. 1984, ApJ, 285, 818 Google Scholar
Pollack, J.B., Hubickyj, O., Bodenheimer, P., Lissauer, J.J., Podolak, M., & Greenzweig, Y. 1996, Icarus, 124, 62 Google Scholar
Pringle, J.E. & Rees, M.J. 1972, A&A 21, 1 Google Scholar
Richling, S. & Yorke, H.W. 1997, A&A, 327, 317 Google Scholar
Richling, S. & Yorke, H.W. 1998, A&A, 340, 508 Google Scholar
Safronov, V.S. 1969, Evolution of the protoplanetary cloud and formation of Earth and the planets (Nauka, Moscow)Google Scholar
Shakura, N.I. & Sunyaev, R.A. 1973, A&A, 24, 337 Google Scholar
Shu, F.H., Johnstone, D., & Hollenbach, D. 1993, Icarus, 106, 92 Google Scholar
Shu, F.H., Lizano, S., Ruden, S.P., & Najita, J. 1988, ApJ, 328, L19 Google Scholar
Störzer, H. & Hollenbach, D. 1999, ApJ, 515, 669 Google Scholar
Terebey, S., Shu, F.H., & Cassen, P. 1984, ApJ, 286, 529 Google Scholar
Wood, D.O.S. & Churchwell, E. 1989, ApJS, 69, 831 Google Scholar
Weidenschilling, S.J. 1984, Icarus, 60, 553 Google Scholar
Wetherill, G.W. 1980, ARAA, 18, 77 Google Scholar
Wetherill, G.W. & Stewart, G.R. 1986, L&PS 17, 939 Google Scholar
Yorke, H.W., Bodenheimer, P., & Laughlin, G. 1995, ApJ, 443, 199 Google Scholar
Yorke, H.W. & Welz, A. 1993, in Star Formation, Galaxies and the Interstellar Medium, eds. Franco, J. et al. (Cambridge U. Press), 239 Google Scholar
Yorke, H.W. & Welz, A. 1994, in Numerical Simulations in Astrophysics, eds. Franco, J. et al. (Cambridge U. Press), 318 Google Scholar