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Low Mass Wolf-Rayet Stars: Theory

Published online by Cambridge University Press:  14 August 2015

Alvio Renzini*
Affiliation:
Osservatorio Astronomico, CP 596, 40100 Bologna, Italy

Extract

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It is well known that the Wolf-Rayet phenomenon is not restricted to some bright and massive stars, presumably in their core hydrogen-burning or helium-burning phase, but that it is also encountered among the central stars of some planetary nebulae (PNe). The PN nuclei are generally regarded as the evolutionary product of low and intermediate mass stars (with initial masses M.1 below ∼5 M), which have lost most of their hydrogen-rich envelope during the so-called Asymptotic Giant Branch (AGB) phase. Correspondingly, their present mass cannot exceed the Chandrasekhar limit (∼1.4 M), and their internal structure consists of a highly degenerate carbon-oxygen core containing most of the stellar mass, surrounded by an intershell region of mass ΔMCSH, and by a very low-mass envelope (Me < ∼10−3 M).

Type
SESSION 6 — LOW MASS WOLF-RAYET STARS RING NEBULAE
Copyright
Copyright © Reidel 1982 

References

Becker, S.A. 1981. Physical Processes in Red Giants, Ed. Iben, I. Jr., Renzini, A. (Reidel: Dordrecht), p. 141.CrossRefGoogle Scholar
Becker, S.A., Iben, I. Jr. 1980. Ap. J. 237, 111.CrossRefGoogle Scholar
Fujimoto, M.Y. 1977. Publ. Astron. Soc. Japan, 29, 331.Google Scholar
Iben, I. Jr. 1976. Ap. J. 208, 165.CrossRefGoogle Scholar
Iben, I. Jr. 1977. Advanced Stages in Stellar Evolution, Ed. Bouvier, P., Maeder, A. (Geneva), p. 1.Google Scholar
Iben, I. Jr. 1981. Physical Processes in Red Giants, Ed. Iben, I. Jr., Renzini, A. (Reidel: Dordrecht), p. 3.CrossRefGoogle Scholar
Iben, I. Jr., Renzini, A. 1982. Ann. Rev. Astron. Astrophys. (submitted).Google Scholar
Iben, I. Jr., Truran, J.W. 1978. Ap. J. 220, 980.CrossRefGoogle Scholar
Paczynski, B. 1971. Acta Astronomica, 21, 417.Google Scholar
Renzini, A. 1979. Stars and Star Systems, Ed. Westerlund, B. (Reidel: Dordrecht), p. 155.CrossRefGoogle Scholar
Renzini, A. 1981a. Physical Processes in Red Giants, Ed. Iben, I. Jr., Renzini, A. (Reidel: Dordrecht) p. 431.CrossRefGoogle Scholar
Renzini, A. 1981b. Effects of Mass Loss on Stellar Evolution, Ed. Chiosi, C., Stalio, R. (Reidel: Dordrecht) p. 319.CrossRefGoogle Scholar
Renzini, A., Voli, M. 1981. Astron. Astrophys. 94, 175.Google Scholar
Sackmann, I.-J. 1980a. Ap. J. 235, 554.CrossRefGoogle Scholar
Sackmann, I.-J. 1980b. Ap. J. Lett. 241, L37.CrossRefGoogle Scholar
Schönberner, D. 1979. Astron. Astrophys. 79, 108.Google Scholar
Schönberner, D. 1981. (preprint).Google Scholar
Schönberner, D., Weidemann, V. 1981. Physical Processes in Red Giants, Ed. Iben, I. Jr., Renzini, A. (Reidel: Dordrecht), p. 463.CrossRefGoogle Scholar
Sweigart, A.V. 1976. Phys. Today, 29, 29.CrossRefGoogle Scholar
Wood, P.R., Cahn, J.H. 1977. Ap. J. 211, 499.CrossRefGoogle Scholar