Bayesian inference on the isospin splitting of nucleon effective mass from giant resonances in 208Pb

Abstract

From a Bayesian analysis of the electric dipole polarizability, the constrained energy of isovector giant dipole resonance, the peak energy of isocalar giant quadrupole resonance and the constrained energy of isocalar giant monopole resonance in 208Pb, we extract the isoscalar and isovector effective masses in nuclear matter at saturation density 0 as ms,0/m=0.87-0.04+0.04 and mv,0/m = 0.78-0.05+0.06 at 90\% confidence level. The obtained constraints on ms,0 and mv,0 lead to a positive isospin splitting of nucleon effective mass in asymmetric nuclear matter of isospin asymmetry δ at 0 as mn-p* / m=(0.20+0.15-0.14)δ. In addition, the symmetry energy at the subsaturation density =0.05~fm-3 is determined to be Esym()=16.71.3 MeV at 90\% confidence level.