Nuclear equation of state
- 1 June 1998
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review C
- Vol. 57 (6) , 3020-3025
- https://doi.org/10.1103/physrevc.57.3020
Abstract
We present a discussion of the equation of state of cold nuclear matter predicted by our recently completed Thomas-Fermi model. The equation is in the form of a three-term polynomial in the cube root of the density, with coefficients that are functions of the relative neutron excess δ. The coefficients are tabulated in the range from (standard nuclear matter) to (neutron matter), making it very easy to calculate, for a given , the pressure, compressibility, saturation binding, and any other property of the Thomas-Fermi equation of state. We discuss the empirical information concerning abnormal densities and large neutron excess that is contained in the measured values of the surface energy, surface diffuseness, and the neutron skin.
Keywords
This publication has 9 references indexed in Scilit:
- Nuclear-matter incompressibility from fits of generalized Skyrme force to breathing-mode energiesNuclear Physics A, 1997
- The congruence energy: a contribution to nuclear masses, deformation energies and fission barriersNuclear Physics A, 1997
- Nuclear properties according to the Thomas-Fermi modelNuclear Physics A, 1996
- Microscopic and macroscopic determinations of nuclear compressibilityNuclear Physics A, 1995
- The compressibility of finite nucleiNuclear Physics A, 1995
- Droplet-model theory of the neutron skinNuclear Physics A, 1980
- Droplet Model of Atomic NucleiPublished by Springer Nature ,1977
- The nuclear droplet model for arbitrary shapesAnnals of Physics, 1974
- Average nuclear propertiesAnnals of Physics, 1969