Neutron skin thickness of 116,118,120,122,124Sn determined from reaction cross sections of proton scattering

Abstract

The cross sections of SDR in the Sb isotopes have been measured. Within the model used, the neutron-skin thicknesses r skin( exp) deduced 0.12 0.06fm for 116Sn, 0.13 0.06fm for 118Sn, 0.18 0.07fm for 120Sn, 0.22 0.07fm for 122Sn, 0.19 0.07fm for 124Sn. We tested the chiral (Kyushu) g-matrix folding model for 12C+12C scattering, and found that the Kyushu g-matrix folding model is reliable for reaction cross sections σ R in 30 < E in < 100 MeV and 250 < E in < 400MeV. We determine neutron skin thickness r skin( exp), using measured σ R of 4He+116,120,224Sn scattering. The results are r skin( exp)=0.242 0.140fm for 116Sn, r skin( exp)=0.377 0.140fm for 120Sn, r skin( exp)=0.180 0.142fm for 124Sn. The σ R are available for proton scattering on 116,118,120,122,124Sn with high accuracy. Our aim is to determine r skin( exp) for 116,118,120,122,124Sn with small errors by using the Kyushu g-matrix folding model. Our model is the folding model with the densities scaled from the D1S-GHFB+AMP neutron density. The proton radii of D1S-GHFB+AMP agree with those calculated with the isotope shift method based on the electron scattering. We then scale the neutron densities so as to reproduce the σ R( exp). In 30 < E in < 65MeV, we determine r skin( exp) from measured σ R. The values are r skin( exp)=0.118 0.021~fm for 116Sn, 0.112 0.021fm for 118Sn, 0.124 0.021fm for 120Sn, 0.156 0.022fm for 124Sn. As for 122Sn, the skin value in 30 < E in < 50MeV is 0.122 0.024fm. Our results are consistent with the previous values.