How do mirror charge radii constrain density dependence of the symmetry energy?

Abstract

It has recently been suggested that differences in the charge radii of mirror nuclei ( R mirr ch) are strongly correlated with the neutron-skin thickness (R skin) of neutron-rich nuclei and with the slope of the symmetry energy (L). To test this assumption, we present ab initio calculations of R skin in 48Ca and 208Pb, R mirr ch in 36Ca-36S, 38Ca-38Ar, 41Sc-41Ca, 48Ni-48Ca, 52Ni-52Cr, and 54Ni-54Fe mirror pairs, and L. Employing the recently developed 34 chiral interaction samples, identified by the history matching approach, we conduct rigorous statistical analysis of correlations among R mirr ch, R skin and L, accounting for quantified uncertainties from low-energy constants of chiral interaction, chiral effective field theory truncation and many-body method approximation. The ab initio results reveal an appreciable R mirr ch-L correlation in fp-shell mirror pairs. However, contrary to previous studies, the present calculation finds that the studied sd-shell mirror pairs do not exhibit any R mirr ch-L correlation.