Constraining the density slope of nuclear symmetry energy at subsaturation densities using electric dipole polarizability in 208Pb

Abstract

Nuclear structure observables usually most effectively probe the properties of nuclear matter at subsaturation densities rather than at saturation density. We demonstrate that the electric dipole polarizibility α D in 208Pb is sensitive to both the magnitude Esym(c) and density slope L(c) of the symmetry energy at a subsaturation cross density c = 0.11 fm-3. Using the experimental data of α D in 208Pb from RCNP and the recent accurate constraint of Esym(c) from the binding energy difference of heavy isotope pairs, we extract a value of L(c) = 47.3 7.8 MeV. The implication of the present constraint of L(c) to the symmetry energy at saturation density, the neutron skin thickness of 208Pb and the core-crust transition density in neutron stars is discussed.