g-matrix folding-model approach to reaction cross sections for scattering of Ca isotopes on a C target

Abstract

We first predict the ground-state properties of Ca isotopes, using the Gogny-D1S Hartree-Fock-Bogoliubov (GHFB) with and without the angular momentum projection (AMP). We find that 64Ca is an even-dripline nucleus and 59Ca is an odd-dripline nucleus, using A dependence of the one-neutron separation energy S1 and the two-neutron separation energy, S2. As for S1, S2 and the binding energies E B, our results agree with the experimental data in 40-58Ca. As other ground-state properties of 40-60,62,64Ca, we predict charge, proton, neutron, matter radii, neutron skin and deformation. As for charge radii, our results are consistent with the experimental data in 40-52Ca. For 48Ca, our results on proton, neutron, matter radii agree with the experimental data. Very lately, Tanaka et. al. measured interaction cross sections for 42-51Ca scattering on a 12C target at an incident energy per nucleon of E lab=280MeV. Secondly, we predict reaction cross sections σ R for 40-60,62,64Ca, using a chiral g-matrix double-folding model (DFM). To show the reliability of the present DFM for σ R, we apply the DFM for the data on 12C scattering on 9Be, 12C, 27Al targets in 30 < E lab < 400 MeV, and show that the present DFM is good in 30 < E lab < 100 MeV and 250 < E lab < 400 MeV. For 110 < E lab < 240 MeV, our results have small errors. To improve the present DFM for σ R, we propose two prescriptions.