Robust linear correlations related to neutron skin thickness
Abstract
We observe various robust linear correlations related to neutron skin thickness ( R np) within different interaction ensembles, including newly proposed random Skyrme ensemble. The robust linear correlation between R np, or charge radius difference of mirror nuclei ( R mirr), and the isospin asymmetry (I=N-ZA) becomes apparent as the model space is enlarged. Shape coexistence, or shape effect on charge radius, is considered to explain the experimental deviation of 18O/Ne and some odd-A R mirrs from the R mirr-I linearity. The slopes of the linear R mirr-I and R np-I correlations (C np and C mirr, respectively) are also robustly and linearly correlated to the slope of the symmetry energy (L). These linear correlations are further understood with the similar formulation between between L and the symmetry energy coefficient (J). The linear correlations between C np-L and C mirr-L are also adopted to constrain L to 2036 MeV with 1σ confidence. Considering the deviation of 18O/Ne Rmirr due to shape coexistence, the 1σ range for L is further narrowed to 2836 MeV, suggesting a relatively soft equation of state for nuclear matter.
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