Abstract.
We recall the basic physical principles governing the evolution of stars with some emphasis on the role played by the nuclear reactions. We argue that in general it is not possible from observations of stars to deduce constraints on the nuclear reaction rates. This is the reason why precise measurements of nuclear reaction rates are a necessity in order to make progresses in stellar physics, nucleosynthesis and chemical evolution of galaxies. There are however some stars which provides useful constraints on nuclear processes. The Wolf-Rayet stars of the WN type present at their surface CNO equilibrium patterns. There is also the particular case of the abundance of 22Ne at the surface of WC stars. The abundance of this element is a measure of the initial CNO content. Very interestingly, recent determinations of its abundance at the surface of WC stars tend to confirm that massive stars in the solar neighborhood have initial metallicities in agreement with the Asplund et al. [1] solar abundances.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
M. Asplund, N. Grevesse, A.J. Sauval, in Cosmic Abundances as Records of Stellar Evolution and Nucleosynthesis, ASP Conf. Ser. 336, edited by T.G. Barnes III and F.N. Bash (San Francisco: ASP, 2005), p. 25
I. Baraffe, G. Chabrier, F. Allard, P.H. Hauschildt, A&A 382, 563 (2002)
D. Saumon, W.B. Hubbard, A. Burrows et al., ApJ 460, 993 (1996)
G. Chabrier, I. Baraffe, F. Allard, P.H. Hauschildt, ApJ 542, 119 (2000)
O.G. Benvenuto, M.A. De Vito, MNRAS 352, 249 (2004)
J.S. Kalirai, B.M.S. Hansen, D.D. Kelson et al., ApJ (submitted) [astro-ph/0706.3894]
A. Maeder, G. Meynet, A&A 210, 155 (1989)
C. Angulo et al., Nucl. Phys. A 656, 3 (1999)
T. Rauscher, A. Heger, R.D. Hoffman, S.E. Woosley, ApJ 576, 323 (2002)
M. Arnould, M. Katsuma, Proceedings of the International Conference on Nuclear Data for Science and Technology (Nice, France, 2007) [astro-ph/0706.1132]
C.E. Rolfs, W.S. Rodney, Cauldrons in the cosmos: Nuclear Astrophysics (University of Chicago Press, 1988)
A. Weiss, A. Serenelli, A. Kitsikis, H. Schattl, J. Christensen-Dalsgaard, A&A 441, 1129 (2005)
F. Herwig, S.M. Austin, J.C. Lattanzio, Phys. Rev. C 73, 025802 (2006)
T. Decressin, G. Meynet, C. Charbonnel, N. Prantzos, S. Ekström, A&A 464, 1029 (2007)
F. Hoyle, ApJS 1, 121 (1954)
A. Maeder, ApJ 525C, 453 (1999)
L.M. Celnikier, Find a hotter place! A history of nuclear astrophysics, World Scientific Series in Astronomy and Astrophysics, Vol. 11 (New Jersey, London, Singapore, World Scientific, 2005)
P.A. Crowther, ARA&A 45 (in press) [astro-ph/0610356]
L. Dessart, P.A. Crowther, D.J. Hillier, A.J. Willis, P.W. Morris, K.A. van der Hucht, MNRAS 315, 407 (2000)
P.A. Crowther, D.J. Lennon, N.R. Walborn, A&A 446, 279 (2006)
G. Meynet, A. Maeder, A&A 404, 975 (2003)
L.F. Smith, A. Maeder, A&A 241, 77 (1991)
A.J. Willis, in IAU Symp. 193, Wolf-Rayet Phenomena in Massive Stars and Starburst Galaxies, edited by K.A. van der Hucht, G. Koenigsberger, P.R.J. Eenens (ASP, 1999), p. 1
W.R. Binns, M.E. Wiedenbeck, M. Arnould et al., ApJ 634, 351 (2005)
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Meynet, G. From stars to nuclei. Eur. Phys. J. Spec. Top. 156, 257–263 (2008). https://doi.org/10.1140/epjst/e2008-00623-1
Issue Date:
DOI: https://doi.org/10.1140/epjst/e2008-00623-1