M. Brenna scite author profile

We study the electric dipole polarizability α D in 208 Pb based on the predictions of a large and representative set of relativistic and nonrelativistic nuclear mean-field models. We adopt the droplet model as a guide to better understand the correlations between α D and other isovector observables. Insights from the droplet model suggest that the product of α D and the nuclear symmetry energy at saturation density J is much better correlated with the neutron skin thickness r np of 208 Pb than the polarizability alone. Correlations of α D J with r np and with the symmetry energy slope parameter L suggest that α D J is a strong isovector indicator. Hence, we explore the possibility of constraining the isovector sector of the nuclear energy density functional by comparing our theoretical predictions against measurements of both α D and the parity-violating asymmetry in 208 Pb. We find that the recent experimental determination of α D in 208 Pb in combination with the range for the symmetry energy at saturation density J = [31 ± (2) est ] MeV suggests r np ( 208 Pb) = 0.165 ± (0.009) expt ± (0.013) theor ± (0.021) est fm and L = 43 ± (6) expt ± (8) theor ± (12) est MeV.

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Giant quadrupole resonances in208Pb, the nuclear symmetry energy, and the neutron skin thickness

Roca-Maza

et al. 2013

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Low-lying dipole response: Isospin character and collectivity in68Ni,132Sn, and208Pb

et al. 2012

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M. Brenna

Electric dipole polarizability in208Pb: Insights from the droplet model

Giant quadrupole resonances in208Pb, the nuclear symmetry energy, and the neutron skin thickness

Low-lying dipole response: Isospin character and collectivity in68Ni,132Sn, and208Pb

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