Constraining Nuclear Symmetry Energy parameters from Neutron skin thickness of 48Ca

Abstract

In the present work, we use a finite range effective interaction to calculate the neutron skin thickness in 48Ca and correlate these quantities with the parameters of nuclear symmetry energy. Available experimental data on the neutron skin thickness in 48Ca are used to deduce information on the density slope parameter and the curvature symmetry parameter of the nuclear symmetry energy at saturation and at subsaturation densities. We obtained the constraints such as 54.5≤ L(0) ≤ 97.5 MeV and 47.3≤ L(c) ≤ 57.1 MeV for the density slope parameter. The constraints on the curvature symmetry energy parameter are obtained as -170.7≤ Ksym(0) ≤ -43.4 MeV and -80.8≤ Ksym(c) ≤ 23.8 MeV. A linear relation between the neutron skin thickness in 48Ca and in 2088Pb is obtained.