Saturation of nuclear matter and radii of unstable nuclei

Abstract

We examine relations among the parameters characterizing the phenomenological equation of state (EOS) of nearly symmetric, uniform nuclear matter near the saturation density by comparing macroscopic calculations of radii and masses of stable nuclei with the experimental data. The EOS parameters of interest here are the symmetry energy S0, the symmetry energy density-derivative coefficient L and the incompressibility K0 at the normal nuclear density. We find a constraint on the relation between K0 and L from the empirically allowed values of the slope of the saturation line (the line joining the saturation points of nuclear matter at finite neutron excess), together with a strong correlation between S0 and L. In the light of the uncertainties in the values of K0 and L, we macroscopically calculate radii of unstable nuclei as expected to be produced in future facilities. We find that the matter radii depend strongly on L while being almost independent of K0, a feature that will help to determine the L value via systematic measurements of nuclear size.

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