Physics
Scientific paper
Jun 1989
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1989phrvl..62.3015f&link_type=abstract
Physical Review Letters (ISSN 0031-9007), vol. 62, June 26, 1989, p. 3015-3019.
Physics
109
Neutron Stars, Pulsars, Stellar Models, Equations Of State, Stellar Mass, Stellar Rotation
Scientific paper
New models of rotating neutron stars show that only a surprisingly narrow range of possible equations of state (EOSs) can simultaneously allow a rotating neutron star with frequency as large as 1968 Hz and a spherical (nonrotating) neutron star with mass as large as 1.44 solar mass. The mass and baryon mass for the 1968-Hz models exceed 1.5 solar mass and 1.7 solar mass, implying a progenitor mass larger than 1.7 solar mass. Those EOSs that allowed 1968-Hz models have, for spherical stars, a stringent upper mass limit of 1.7 solar mass. Each model at 1968 Hz has mass above the spherical upper mass limit for its EOS, implying collapse upon spin down.
Friedman John L.
Ipser James R.
Parker Leonard
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