The electric dipole polarizability quantifies the low-energy behavior of the dipole strength and is related to critical observables such as the radii of the proton and neutron distributions. Its computation is challenging because most of the dipole strength lies in the scattering continuum. In this paper we combine integral transforms with the coupled-cluster method and compute the dipole polarizability using bound-state techniques. Employing different interactions from chiral effective field theory, we confirm the strong correlation between the dipole polarizability and the charge radius, and study its dependence on three-nucleon forces. We find good agreement with data for the He-4, Ca-40, and O-16 nuclei, and predict the dipole polarizability for the rare nucleus O-22.
Electric dipole polarizability from first principles calculations / Miorelli, M.; Bacca, S.; Barnea, N.; Hagen, G.; Jansen, G. R.; Orlandini, G.; Papenbrock, T.. - In: PHYSICAL REVIEW C. - ISSN 2469-9985. - STAMPA. - 94:3(2016). [10.1103/PhysRevC.94.034317]
Electric dipole polarizability from first principles calculations
Bacca, S.;Orlandini, G.;
2016-01-01
Abstract
The electric dipole polarizability quantifies the low-energy behavior of the dipole strength and is related to critical observables such as the radii of the proton and neutron distributions. Its computation is challenging because most of the dipole strength lies in the scattering continuum. In this paper we combine integral transforms with the coupled-cluster method and compute the dipole polarizability using bound-state techniques. Employing different interactions from chiral effective field theory, we confirm the strong correlation between the dipole polarizability and the charge radius, and study its dependence on three-nucleon forces. We find good agreement with data for the He-4, Ca-40, and O-16 nuclei, and predict the dipole polarizability for the rare nucleus O-22.File | Dimensione | Formato | |
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