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X-Ray Bursts of Nuclear Origin?

Published online by Cambridge University Press:  30 March 2016

L. Maraschi
Affiliation:
Laboratorio Fisica Cosmica CNR and Istituto di Fisica, Milano Physics Department, MIT and Laboratorio Astrofisica CNR, Frascati
A. Cavaliere
Affiliation:
Laboratorio Fisica Cosmica CNR and Istituto di Fisica, Milano Physics Department, MIT and Laboratorio Astrofisica CNR, Frascati

Extract

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The fate of nuclear energy carried by matter accreted onto a neutron star was considered e.g. by Rosenbluth et al. (1973). They examined pycnonuclear reactions on an originally cold star, and found that the whole star is thereby heated up to 106−107 °K. The thermonuclear reactions that can be ignited then, have been studied by Hansen and Van Horn (1975), who computed stationary burning shells, finding, however, that in most cases the shells are thermally unstable.

We consider here the possibility that X-ray bursts are due to instabilities of this type. The observational constraints fix the parameters uniquely.

Type
Joint Dicussions
Copyright
Copyright © Reidel 1977

References

Hansen, C.J. and Van Horn, H.M., 1975, Ap.J., 195, 735.CrossRefGoogle Scholar
Hoyle, F. and Clayton, D.D., 1974, Ap.J., 191, 705.Google Scholar
Lamers, H.J.G., van den Heuvel, E.P.J. and Petterson, J.A., 1976, Astron and Astrophys. 49, 327.Google Scholar
Rosenbluth, M.N., Ruderman, M., Dyson, F., Bahcall, J.N., Shaham, J. and Ostriker, J., 1973, Ap.J., 184, 907.CrossRefGoogle Scholar