Reanalyses for 42-51Ca scattering on a 12C target at 280 MeV/nucleon based on chiral g folding mode with Gogny-D1S Hartree-Fock-Bogoliubov densities (published in Results in Physics)

Abstract

In the previous paper, we predicted reaction cross sections σ R for 40-60,62,64Ca+12C scattering at 280~MeV/nucleon, since Tanaka el al. measured interaction cross sections σ I for 42-51Ca in RIKEN and determined neutron skin r skin( RIKEN) using the optical limit of the Glauber model with the Woos-Saxon densities. Our purpose is to reanalyze the r skin from the σ I. Our analysis is superior to theirs, since the chiral g-matrix folding model (the GHFB and GHFB+AMP densities) is much better than the optical limit of the Glauber model (the Woos-Saxon densities). Our model is the chiral g-matrix folding model with the densities scaled from the GHFB and GHFB+AMP densities. We scale the GHFB and GHFB+AMP densities so that the σ R of the scaled densities can agree with the central values of σ I under the condition that the proton radius of the scaled proton density equals the data determined from the isotope shift based on the electron scattering. The r skin thus determined are close to their results r skin42-51( RIKEN). For 48Ca, our value r skin48 is 0.105 0.06~fm, while their value is r m48( RIKEN)=0.146 0.06~fm. We take the weighted mean and its error of r skin48(σ I)= 0.105 0.06~fm and r skin48(E1 pE) =0.17 0.03~fm of the high-resolution E1 polarizability experiment (E1 pE). Our final result is r skin48=0.157 0.027~fm. Our conclusion is r skin48=0.157 0.027~fm for 48Ca. For 42-47,49-51Ca, our results on r skin are similar to theirs. Our result for 48Ca is related to CREX.