Neutron skin thickness for 208Pb from total cross sections of neutron scattering at 14.137 MeV and neutron skin thickness for 48Ca, O, N, C isotopes from reaction and interaction cross sections
Abstract
Foster et al. measured total neutron cross sections σ T of n+208Pb scattering at 14.137MeV. Carlson et al. measured σ R for p+48Ca scattering in 23 -- 48MeV. Tanaka et al. measured σ I for 42--51Ca + 12C scattering at 280MeV/u. Bagchi et al. measured the charge-changing (CC) cross sections and determined proton radii r p( CC) for 14,15,17 -- 22N from the CC cross sections. Kanungo et al. measured the CC cross sections and extracted r p( CC) for 12-- 19C. Kaur et al. measured the CC cross sections and determined r p( CC) for 16,18 -- 24O. Our 1st aim is to extract r skin208 from the the σ T of n+208Pb scattering at 14.137MeV. Our 2nd aim is to determine r skin48( skin) from σ R on p+48Ca scattering in E lab=23 -- 48MeV. Our 3rd aim is to find light stable nuclei having nuclei having large r skin. We use the Kyushu g-matrix folding model for lower E lab and the folding model based on the Love-Franey t-matrix for higher E lab. We determine r skin48( skin)=0.163 0.037 fm from the σ R on p+48Ca scattering, using the Kyushu g-matrix folding model with the D1M-GHFB+AMP proton and neutron densities. We show that D1M-GHFB+AMP is better than D1S-GHFB+AMP for the matter radius and the binding energy. Our skin value is consistent with r skin48( CREX). For C, N, O isotopes, we find that r skin= 0.267 0.056~fm for 14N and r skin= 0.197 0.067~fm for 17O. Our value r skin208=0.309 0.057fm agrees with r skin208( PREX2).
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