Hostname: page-component-586b7cd67f-t7czq Total loading time: 0 Render date: 2024-11-26T22:24:17.805Z Has data issue: false hasContentIssue false

Theory of Protostellar Objects

Published online by Cambridge University Press:  12 April 2016

Frank H. Shu*
Affiliation:
Institute for Theoretical Physics, University of California, Santa Barbara, CA 93106USA

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Many problems in the theory of star formation are amenable to a complementary attack in which the analytical approach is used to reduce the governing equations to a form amenable to efficient numerical solution. This strategy has proven very useful in helping to resolve several astrophysical puzzles which arise because the bulk of star formation today is observed to occur, with relatively low efficiency, in giant molecular cloud complexes. How does a cloud of 105-106M know how to form stars of mass ~ 1 M? How does the interstellar medium know, to one or two orders of magnitude, that roughly hydrogen atoms of mass mH are needed to yield thermonuclear fusion in a self-gravitating ball of gas? Why have radio astronomers not detected unambiguous evidence for the collapse motions attendant to star formation? Why has a true protostar, the “holy grail” of infrared astronomy, been so hard to find? Why do young stellar objects almost universally exhibit powerful outflows? Why is the geometry for these outflows often bipolar? Why do T Tauri stars have such active chromospheres? In this review we suggest that these puzzles all have a related resolution, in the nature of how gravitational collapse is initiated and terminated in the slowly rotating cores of molecular clouds.

Type
1. Protostellar Objects
Copyright
Copyright © Springer-Verlag 1986

References

1. Hayashi, C. 1966, Ann. Rev. Astr. Ap. 4, 171.Google Scholar
2. Larson, R.B. 1969, M. N. R. A.S., 145, 271.CrossRefGoogle Scholar
3. Narita, S., Nakano, T., and Hayashi, C. 1970, Prog Theor. Phys., 43, 942.CrossRefGoogle Scholar
4. Hayashi, C. 1970, in Evolution Stellaire avant la Sequence Principale, 16me Liege Symposium (University de Liege), p. 127.Google Scholar
5. Appenzeller, I., and Tscharnuter, W. 1975, Astr. Ap., 40, 397.Google Scholar
6. Westbrook, C.K., and Tarter, C.B. 1975, Ap. J., 200, 48.CrossRefGoogle Scholar
7. Winkler, K.H., and Newman, M.J. 1980, Ap. J., 236, 201.Google Scholar
8. Larson, R.B. 1978, M. N. R. A. S., 184, 69.CrossRefGoogle Scholar
9. Narita, S., and Nagazawa, K. 1978, Prog. Theor. Phys., 59, 1018.Google Scholar
10. Norman, M.L., and Wilson, J.R. 1978, Ap. J., 224, 497.CrossRefGoogle Scholar
11. Boss, A.P. 1980, Ap. J, 236, 619.CrossRefGoogle Scholar
12. Scott, E.H., and Black, D.C. 1980, Ap. J., 239, 166.Google Scholar
13. Tohline, J.E. 1980, Ap. J., 236, 160.CrossRefGoogle Scholar
14. Bodenheimer, P., Tohline, J.E., and Black, 1980, Ap. J., 242, 209.Google Scholar
15. Rozyczka, M., Tscharnuter, W.M., Winkler, K.H., and Yorke, H.W. 1980, Astr. Ap., 83, 118.Google Scholar
16. Black, D.C., and Scott, E.H. 1982, Ap. J., 263, 696.CrossRefGoogle Scholar
17. Boss, A.P. 1984, Ap. J., 277, 768.Google Scholar
18. Penston, M.V. 1969, M. N. R. A. S., 144, 425.CrossRefGoogle Scholar
19. Larson, R.B. 1969, M. N. R. A. S., 145, 271.Google Scholar
20. Shu, F.H. 1977, Ap. J., 214, 488.Google Scholar
21. Hunter, C. 1977, Ap. J., 218, 834.Google Scholar
22. Stahler, S.W., Shu, F.H., and Taam, R.E. 1980, Ap. J., 241, 637.Google Scholar
23. Stahler, S.W., Shu, F.H., and Taam, R.E. 1980, Ap. J., 242, 226.CrossRefGoogle Scholar
24. Stahler, S.W., Shu, F.H., and Taam, R.E. 1981, Ap. J., 248, 727.CrossRefGoogle Scholar
25. Terebey, S., Shu, F.H., and Cassen, P. 1984, Ap. J., 286, 529.Google Scholar
26. Larson, R.B. 1973, Ann. Rev. Astr. Ap., 11, 219.Google Scholar
27. Bodenheimer, P., and Black, D.C. 1978, in Protostars and Planets, ed. Gehreis, T. (Tucson: University of Arizona Press), p. 288.Google Scholar
28. Bodenheimer, P. 1980, in IAU Symposium No. 93, Fundamental Problems in the Theory of Stellar Evolution, ed. Sugimoto, D., Lamb, D.Q., and Schramm, D.N. (Dordrecht: Reidel), p. 5.Google Scholar
29. Tscharnuter, W.M. 1980, Space Sci. Rev., 27, 235.Google Scholar
30. Tohline, J.E., Fund. Cosmic Phys., 8, 1.Google Scholar
31. Iben, I., and Renzini, A. 1983, Ann. Rev. Astr. Ap., 21, 271.CrossRefGoogle Scholar
32. Miller, G.E., and Scalo, J.M. 1979, Ap. J. Suppl., 41, 513.CrossRefGoogle Scholar
33. Hoyle, F. 1953, Ap. J., 118, 513.CrossRefGoogle Scholar
34. Hunter, C. 1964, Ap. J., 139, 570.Google Scholar
35. Low, C., and Lynden-Bell, D. 1976, M. N. R. A. S., 142, 1431.Google Scholar
36. Boss, A.P. 1981, Ap. J., 250, 636.CrossRefGoogle Scholar
37. Silk, J. 1982, Ap. J., 256, 514.Google Scholar
38. Larson, R.B. 1985, M. N. R. A. S., 214, 379.Google Scholar
39. Shu, F.H. 1985, in IAU Symposium No. 106, The Milky Way, ed. Van Woerden, H., Allen, R.J., and Burton, W.B. (Dordrecht: Reidel), p. 561.Google Scholar
40. Schwartz, R.D. 1983, Ann. Rev. Astr. Ap., 21, 209.CrossRefGoogle Scholar
41. Cohen, M. 1984, Physics Reports, 116, no. 4, 173.Google Scholar
42. Lada, C.J. 1985, Ann. Rev. Astr. Ap., 23, 267.Google Scholar
43. Welch, W.J., Vogel, S.N., Plambeck, R.L., Wright, M.C.H., and Biegieg, J.H. 1985, Science, in press.Google Scholar
44. Sargent, A.I. 1977, Ap. J., 218, 736.CrossRefGoogle Scholar
45. Blitz, L., and Thaddens, P. 1980, Ap. J., 241, 676.Google Scholar
46. Zuckerman, B., and Palmer, P. 1974, Ann. Rev. Astr. Ap., 12, 279.Google Scholar
47. Field, G.B. 1978, in Protostars and Planets, ed. Gehreis, T. (Tucson: University of Arizona Press), p. 243.Google Scholar
48. Norman, C., and Silk, J. 1980, Ap. J., 238, 158.Google Scholar
49. Larson, R.B. 1981, M. N. R. A. S., 194, 809.Google Scholar
50. Mestel, L. 1965, Quart. J. R. A. S., 6, 161.Google Scholar
51. Mouschovias, T. Ch. 1976, Ap. J., 207, 141.Google Scholar
52. Goldsmith, P.F., and Arquilla, R. 1985, in Protostars and Planets II, ed. Black, D.C. and Matthews, M.S. (Tucson: University of Arizona Press), in press.Google Scholar
53. Spitzer, L. 1968, Diffuse Matter in Space (New York: Intorscience).Google Scholar
54. Mouschovias, T. Ch., and Spitzer, L. 1976, Ap. J., 210, 326.Google Scholar
55. Troland, T.H., and Heiles, C.H. 1985, Ap. J., in press.Google Scholar
56. Vrba, F.J., Strom, K.M., and Strom, S.E. 1976, A. J., 81, 958.Google Scholar
57. Arons, J., and Max, C.E. 1975, Ap. J. Letters, 196, L77.CrossRefGoogle Scholar
58. Mestel, L. 1985, in Protostars and Planets II, ed. Black, D.C. and Matthews, M.S. (Tucson: University of Arizona Press), in press.Google Scholar
59. Cohen, L.V., and Kuhi, L.V. 1979, Ap. J. Suppl, 41, 743.Google Scholar
60. Myers, P.C., and Benson, P.J. 1983, Ap. J., 266, 309.Google Scholar
61. Vrba, F.J., Strom, K.M., Strom, S.E., and Grasdalen, G.L. 1975, Ap. J., 197, 77.Google Scholar
62. Lada, C.J., and Wilking, B.A. 1984, Ap. J., 287, 610.Google Scholar
63. Mestel, L., and Spitzer, L. 1956, M. N. R. A. S., 116, 503.Google Scholar
64. Nakano, T., and Tademaru, E. 1972, Ap. J., 173, 87.Google Scholar
65. Mouschovias, T. Ch. 1981, in IAU Symposium No. 91, Fundamental Problems in the Theory of Star Formation, ed. Sugimoto, D., Lamb, D.Q., and Schramm, D.N. (Dordrecht: Reidel), p. 27.Google Scholar
66. Nakano, T. 1982, Pub. Astr. Soc. Japan, 34, 337.Google Scholar
67. Mouschovias, T. Ch., Paleologou, E.V., and Fiedler, R.A. 1985, Ap. J., 291, 772.Google Scholar
68. Draine, B.T., Roberge, W.G., and Dalgarno, A. 1983, Ap. J., 264, 485.Google Scholar
69. Shu, F.H. 1983, Ap. J., 273, 202.CrossRefGoogle Scholar
70. Lizano, S., and Shu, F.H. 1986, in preparation.Google Scholar
71. Gillis, J., Mestel, L., and Paris, R.B. 1974, Ap. Space Sci., 27, 167.Google Scholar
72. Gillis, J., Mestel, L., and Paris, R.B. 1979, M. N. R. A. S., 187, 311.Google Scholar
73. Mouschovias, T. Ch., and Paleologou, E.V. 1979, Ap. J., 230, 204.CrossRefGoogle Scholar
74. Mouschovias, T. Ch., and Paleologou, E.V. 1980, Ap. J., 237, 877.Google Scholar
75. Bodenheimer, P., and Sweigart, A. 1968, Ap. J., 152, 515.CrossRefGoogle Scholar
76. Whitworth, A., and Summers, D. 1985, M. N. R. A. S., 214, 1.Google Scholar
77. Nakano, T. 1981, Prog. Theor. Phys. Suppl. No. 70, 54.CrossRefGoogle Scholar
78. Elmegreen, B.G. 1979, Ap. J., 232, 729.CrossRefGoogle Scholar
79. Nakano, T., and Umebayashi, T. 1980, Pub. Astr. Soc. Japan, 32, 613.Google Scholar
80. Myers, P.C. 1985, in Protostars and Planets II, ed. Black, D.C. and Matthews, M.S. (Tucson: University of Arizona Press), in press.Google Scholar
81. Ho, P.T.P., and Townes, C.H. 1983, Ann. Rev. Astr. Ap., 21, 239.Google Scholar
82. Hayashi, C., Hoshi, R., and Sugimoto, D. 1962, Prog. Theor. Phys. Suppl. No. 22.Google Scholar
83. Mihalas, D. 1978, Stellar Atmospheres (San Francisco: Freeman).Google Scholar
84. Stahler, S.W. 1983, Ap. J., 274, 822.CrossRefGoogle Scholar
85. Mercer-Smith, J.A., Cameron, A.G.W., and Epstein, R.I. 1984, Ap. J., 287, 445.Google Scholar
86. Winkler, K.H., and Newman, M.J. 1980, Ap. J., 238, 311.Google Scholar
87. Larson, R.B. 1969, M. N. R. A. S., 145, 297.Google Scholar
88. Yorke, H.W., and Krugel, E. 1977, Astr. Ap., 54, 183.Google Scholar
89. Bertout, C., and Yorke, H.W. 1978, in Protostars and Planets, ed. Gehreis, T. (Tucson: University of Arizona Press), p. 648.Google Scholar
90. Yorke, H.W., and Shustov, B.M. 1981, Astr. Ap., 98, 125.Google Scholar
91. Adams, F.C., and Shu, F.H. 1985, Ap. J., in press.Google Scholar
92. Adams, F.C., and Shu, F.H. 1986, Ap. J., in preparation.Google Scholar
93. Draine, B.T., and Lee, H.M. 1984, Ap. J., 285, 89.Google Scholar
94. Myers, P.C., Mathieu, R.D., Benson, P.J., Beichman, C., and Fuller, G.A. 1986, in preparation.Google Scholar
95. Wynn-Williams, C.G. 1982, Ann. Rev. Astr. Ap., 20, 587.CrossRefGoogle Scholar
96. Shu, F.H., and Terebey, S. 1984, in Cool Stars, Stellar Systems, and the Sun, ed. Baliunas, S. and Hartmann, L. (Berlin: Springer-Verlag), p. 78.CrossRefGoogle Scholar
97. Cassen, P., Shu, F.H., and Terebey, S. 1985, in Protostars and Planets II, ed. Black, D.C. and Matthews, M.S. (Tucson: University of Arizona Press), in press.Google Scholar
98. Bally, J., and Lada, C.J. 1983, Ap. J., 265, 824.Google Scholar
99. Parker, E.N. 1979, Cosmical Magnetic Fields (Oxford University Press).Google Scholar
100. Parker, E.N. 1984, Ap. J., 286, 666.Google Scholar
101. Herbig, G. 1962, Adv. Astr. Ap. 1, 47.Google Scholar
102. Kuhi, L.V. 1964, Ap. J., 140, 409.Google Scholar
103. Calvet, N., Basri, G., and Kuhi, L.V. 1984, Ap. J., 277, 725.Google Scholar
104. Vogel, S., and Kuhi, L. 1981, Ap. J., 245, 960.Google Scholar