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Models of Bipolar Molecular Outflows

Published online by Cambridge University Press:  25 May 2016

Sylvie Cabrit ,
Alex Raga  and
Frederic Gueth
Sylvie Cabrit
Affiliation:
DEMIRM, Observatoire de Paris, 61 Avenue de l'Observatoire, 75014 Paris, France
Alex Raga
Affiliation:
Instituto de Astronomía, UNAM, Ap. 70-264, 04510 México D. F., México
Frederic Gueth
Affiliation:
IRAM, 300 rue de la Piscine, 38406 Saint Martin d'Hères, France

Abstract

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This paper reviews various hydrodynamical models proposed for explaining bipolar molecular outflows from young stars. The different possibilities discussed are : wind-driven molecular shells, steady state filled flows, and jet-driven bow shocks. Particular emphasis is placed on comparisons between model predictions and observations of molecular flows. While it appears that jet-driven bow shocks are at the present time the most popular mechanism for explaining molecular outflows, other models have interesting characteristics that might be relevant for at least some objects.

Type
II. The Physics and Chemistry of Molecular Outflows
Information
Symposium - International Astronomical Union , Volume 182: Herbig-Haro Flows and the Birth of Low Mass Stars , 1997 , pp. 163 - 180
Copyright
Copyright © Kluwer 1997 

References

Bachiller, R. 1996, ARAA, 34, 111.Google Scholar
Bachiller, R., Martín-Pintado, J., Tafalla, M., et al., 1990, A&A, 231, 174.Google Scholar
Bachiller, R., Guilloteau, S., Dutrey, A., Planesas, P., Martin-Pint ado, J., 1995, A&A, 299, 857.Google Scholar
Bence, S.J., Richer, J.S., Padman, R., 1996, MNRAS, 279, 866.CrossRefGoogle Scholar
Barral, J.F., Cantó, J., 1981, RevMexAA, 5, 101.Google Scholar
Biro, S., Raga, A.C., Cantó, J., 1995, MNRAS, 275, 557.CrossRefGoogle Scholar
Bontemps, S., Andre, P., Terebey, S., Cabrit, S. 1996, A&A, 311, 858.Google Scholar
Cabrit, S., Bertout, C., 1986, ApJ, 307, 313.Google Scholar
Cabrit, S., Bertout, C., 1990, ApJ, 348, 530.Google Scholar
Cabrit, S., Goldsmith, P.F., Snell, R.L., 1988, ApJ, 334, 196.Google Scholar
Cabrit, S., Raga, A.C., 1997, in preparation.Google Scholar
Cantó, J., 1980, A&A, 86, 327.Google Scholar
Cantó, J., Raga, A.C., 1991, ApJ, 372, 646.Google Scholar
Cantó, J., Tenorio-Tagle, G., Rózyczka, M., 1988, A&A, 192, 287.Google Scholar
Cernicharo, J., Reipurth, B. 1996, ApJ, 460, L57.Google Scholar
Chandler, C., Terebey, S., Barsony, M., Moore, T.J.T., Gautier, T.N, 1996, ApJ, 471, 308.Google Scholar
Chernin, L.M., Masson, C.R., Gouveia dal Pino, E.M., Benz, W., 1994, ApJ, 426, 204.Google Scholar
Cliffe, J.A., Franck, A., Jones, T.W., 1996, MNRAS, 282, 1114.CrossRefGoogle Scholar
Davis, C.J., Eislöffel, J., 1995, A&A, 300, 851.Google Scholar
Devine, D. 1997, in Low Mass Star Formation - from Infall to Outflow, eds. Malbet, F. and Castets, A., p.95.Google Scholar
Downes, T.P. 1996, in Solar and Astrophysical MHD flows, ed. Tsinganos, K. (Kluwer).Google Scholar
Downes, T.P., Ray, T. Drury, L. 1997, in Low Mass Star Formation - from Infall to Outflow, eds. Malbet, F. and Castets, A., p. 98.Google Scholar
Dutrey, A., Guilloteau, S., Bachiller, R., 1997, A&A, in press.Google Scholar
Dyson, J.E., Cantó, J., Rodriguez, L.F., 1988, in Mass Outflows from Stars and Galactic Nuclei, Bianchi, L. and Gilmozzi, R., ed(s)., Kluwer, Dordrecht, p. 299.CrossRefGoogle Scholar
Dyson, J. E., Hartquist, T. W., Malone, M. T., and Taylor, S. D. 1995, RevMexAA Conf. Series, 1, p. 119.Google Scholar
Eislöffel, J., Davis, C.J., Ray, T.P., Mundt, R., 1994, ApJ, 422, L91.Google Scholar
Fiege, J.D., Henriksen, R.N., 1996a, MNRAS, 281, 1038.Google Scholar
Fiege, J.D., Henriksen, R.N., 1996b, MNRAS, 281, 1055.Google Scholar
Frank, A., Mellema, G., 1996, ApJ, 472, 684.CrossRefGoogle Scholar
Fuller, G.A., Ladd, E.F., Padman, R., Myers, P.C., Adams, F. C. 1995, ApJ, 454, 862.CrossRefGoogle Scholar
Gouveia dal Pino, E.M., Birkinshaw, M., 1996, ApJ, 471, 832.CrossRefGoogle Scholar
Gredel, R., Reipurth, B., 1993, ApJ, 407, L29.Google Scholar
Gueth, F., Guilloteau, S., Bachiller, R., 1996, A&A, 307, 891.Google Scholar
Guilloteau, S., Bachiller, R., Fuente, A., Lucas, R., 1992, A&A, 265, L49.Google Scholar
Hartigan, P., Patrick, R.J., Hartmann, L., 1987, ApJ, 316, 323.CrossRefGoogle Scholar
Hartigan, P., Morse, J., Raymond, J., 1994, ApJ, 436, 125.Google Scholar
Henriksen, R.N., Valls-Gabaud, D., 1994, MNRAS, 266, 681.Google Scholar
Holland, W.S., Greaves, J.S., Ward-Thompson, D., André, P., 1996, A&A, 309, 267.Google Scholar
Königl, A., 1982, ApJ, 261, 115.Google Scholar
Koo, B.C., McKee, C.F., 1992, ApJ, 388, 93.Google Scholar
Ladd, E.F., Hodapp, K.W., 1997, ApJ, 474, 749.CrossRefGoogle Scholar
Lada, C.J., 1985, ARAA, 23, 267.CrossRefGoogle Scholar
Lada, C.J., Fich, M., 1996, ApJ, 459, 638.Google Scholar
Levreault, R.M., 1988, ApJ, 330, 897.Google Scholar
Li, Z.Y., Shu, F.H., 1996, ApJ, 472, 211.Google Scholar
Lizano, S., Heiles, C., Rodriguez, L.F., et al., 1988, ApJ, 328, 763.Google Scholar
Lizano, S., Giovanardi, C., 1995, ApJ, 447, 742.Google Scholar
Masson, C.R., Chernin, L.M., 1992, ApJ, 387, L47.Google Scholar
Masson, C.R., Chernin, L.M., 1993, ApJ, 414, 230.CrossRefGoogle Scholar
Masson, C.R., Mundy, L.G., Keene, J., 1990, ApJ, 357, L25.Google Scholar
McCaughrean, M.J., Rayner, J.T., Zinnecker, H., 1994, ApJ, 436, L189.Google Scholar
Mellema, G., Frank, A., 1995, ApSS 233, 145.Google Scholar
Meyers-Rice, B.A., Lada, C.J., 1991, ApJ, 368, 445.Google Scholar
Moriarty-Schieven, G.H., Snell, R.L., 1988, ApJ, 332, 364.Google Scholar
Mundt, R., Brugel, E.W., Bührke, E., 1987, ApJ, 319, 275.Google Scholar
Nagar, N.M., Vogel, S.N., Stone, J.M., Ostriker, E.C., 1997, ApJL, in press.Google Scholar
Padman, R., Richer, J.S., 1994, ApSS, 216, 129.Google Scholar
Raga, A.C., 1993, ApSS, 208, 163.Google Scholar
Raga, A.C., 1995, RevMexAA Conf. Series, 1, p. 103.Google Scholar
Raga, A.C., Cantó, J. 1997, in Open problems on astrophysical jets, eds. Massaglia, S. and Bodo, G. (Gordon and Breach, in press).Google Scholar
Raga, A.C., Biro, S., 1993, MNRAS, 264, 758.Google Scholar
Raga, A.C., Cabrit, S., 1993, A&A, 278, 267.Google Scholar
Raga, A.C., Cantó, J., Biro, S., 1993, MNRAS, 260, 163.Google Scholar
Raga, A.C., Cantó, J., Calvet, N., Rodriguez, L.F., Torrelles, J.M., 1993, A&A, 276, 539.Google Scholar
Raga, A.C., Cabrit, S., Cantó, J., 1995, MNRAS, 273, 422.Google Scholar
Raga, A.C., Taylor, S.D., Cabrit, S., Biro, S., 1995, A&A, 296, 833.Google Scholar
Richer, J.E., Hills, R.E., Padman, R., 1992, MNRAS, 254, 525.Google Scholar
Rodríguez, L.F., Carral, P., Moran, J.M., Ho, P.T.P. 1982, ApJ, 260, 635.Google Scholar
Shu, F.H., Ruden, S.P., Lada, C.J., Lizano, S., 1991, ApJ, 370, L31.CrossRefGoogle Scholar
Shu, F.H., Najita, J., Ostriker, E.C., Shang, H, 1995, ApJ, 455, L155.Google Scholar
Smith, M.D, 1986, MNRAS, 223, 57.Google Scholar
Smith, M.D., Brand, P., Moorhouse, A., 1991, MNRAS, 248, 451.Google Scholar
Smith, M.D., Suttner, G., Yorke, H.W., 1997, A&A, in press.Google Scholar
Smith, M.D., Smarr, L., Norman, M.L., Wilson, J.R. 1983, ApJ, 264, 432.Google Scholar
Snell, R.L., Loren, R.B., Plambeck, R.L, 1980, ApJ, 239, 17.Google Scholar
Stahler, S., 1994, ApJ, 422, 616.Google Scholar
Stone, J.M., Xu, J., Hardee, P.E. 1997, ApJ, in press.Google Scholar
Suttner, G., Smith, M.D., Yorke, H.W., Zinnecker, H., 1997, A&A, in press.Google Scholar
Taylor, S., Raga, A.C., 1995, A&A, 296, 823.Google Scholar
Wilkin, F.P., 1996, ApJ, 459, 31.Google Scholar
Wilkin, F.P., et al. 1997, in preparation.Google Scholar
Wolfire, M.G., Königl, A., 1991, ApJ, 383, 205.Google Scholar
Xie, T., Goldsmith, P.F., Patel, N, 1993, ApJ, 419, 33.CrossRefGoogle Scholar