Physics – Nuclear Physics
Scientific paper
Nov 1976
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1976natur.264..219j&link_type=abstract
Nature, vol. 264, Nov. 18, 1976, p. 219-222. NASA-supported research.
Physics
Nuclear Physics
50
Binary Stars, Neutron Stars, Nuclear Physics, Pulsars, Stellar Mass, X Ray Stars, Companion Stars, Gravitation Theory, Relativity, Stellar Evolution, White Dwarf Stars
Scientific paper
The present state of empirical knowledge about neutron-star masses is reviewed. It is shown how the mass function of a pulsar-containing binary system can be inferred from measurements of the pulsation period and the projected semimajor axis of the pulsar orbit plus independent information concerning the inclination of the orbital plane, the mass of the companion star, or both. Relevant observational properties, the type of information used to constrain the pulsar mass, and the range of allowable pulsar masses are summarized for the binary systems 3U 0900-40, Cen X-3, SMC X-1, Her X-1, and PSR 1913+16. It is found that as long as the general theory of relativity is correct, neutron-star masses should range from about 1.4 to 1.9 solar masses if the companion is a normal white dwarf or should be less than about 1.9 solar masses if the companion is some other object. It is concluded that these mass estimates are entirely consistent with the predictions of nuclear physics theory.
Joss Paul C.
Rappaport Saul A.
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