Correlations between the nuclear breathing mode energy and properties of asymmetric nuclear matter

Abstract

Based on microscopic Hartree-Fock + random phase approximation calculations with Skyrme interactions, we study the correlations between the nuclear breathing mode energy EISGMR and properties of asymmetric nuclear matter with a recently developed analysis method. Our results indicate that the EISGMR of 208Pb exhibits moderate correlations with the density slope L of the symmetry energy and the isoscalar nucleon effective mass ms,0 besides a strong dependence on the incompressibility K0 of symmetric nuclear matter. Using the present empirical values of L=60 30 MeV and ms,0=(0.8 0.1)m, we obtain a theoretical uncertainty of about 16 MeV for the extraction of K0 from the EISGMR of 208Pb. Furthermore, we find the EISGMR difference between 100Sn and 132Sn strongly correlates with L and thus provides a potentially useful probe of the symmetry energy.