Physics
Scientific paper
Sep 1984
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1984phrvl..53.1041k&link_type=abstract
Physical Review Letters (ISSN 0031-9007), vol. 53, Sept. 10, 1984, p. 1041-1044. Research supported by the U.S.-Maria Sklodowska
Physics
36
Chiral Dynamics, Density (Mass/Volume), Matter (Physics), Nuclear Models, Quarks, Solitary Waves, Baryons, Neutron Stars, Pions, Stellar Mass, Supernova Remnants
Scientific paper
Some properties of dense matter in Skyrme's chiral soliton model are explored, and it is shown that at high densities the energy density varies as n to the (413) power, where n is the baryon density. This is quite different from the behavior of conventional nuclear models, but is very similar to that of quark matter. The maximum mass of neutron stars constructed of such matter is significantly lower than that for most other versions of dense matter and may account for the absence of neutron stars in many extended supernova remnants. The phase transition to quark matter is expected to be softened considerably by such a nuclear-matter model.
Kutschera Marek
Pethick Christopher J.
Ravenhall D. G.
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