A self-consistent calculation is performed within an equation of motion method to study the electric dipole response in the neutron rich 132Sn with special attention at the low-energy excitations associated with the pygmy dipole resonance. A basis of one- plus two-phonon states is constructed by solving iteratively a set of equations of motion and adopted to bring the nuclear Hamiltonian to diagonal form. The phonons are generated in a Tamm-Dancoff approximation using a Hartree-Fock basis. The Hamiltonian is composed of an intrinsic kinetic term and an optimized two-body chiral potential. If complemented with a weak phenomenological density dependent term, such a potential improves substantially the description of the dipole response as compared to other realistic interactions. The two-phonon states play an important role in determining the fine structure of the giant dipole resonance and in enhancing the fragmentation of the strength at low energy, in fair agreement with the available data. Insights into the nature of the excitations building up the pygmy resonance are gained from the analysis of the phonon composition and shell structure of the states.

Dipole response in 132Sn within a self-consistent multiphonon approach / F., Knapp; LO IUDICE, Nicola; P., Vesel?; Andreozzi, Francesco; G., De Gregorio; Porrino, Antonio. - In: PHYSICAL REVIEW. C, NUCLEAR PHYSICS. - ISSN 0556-2813. - 90:1(2014), pp. 014310-1-014310-10. [10.1103/PhysRevC.90.014310]

Dipole response in 132Sn within a self-consistent multiphonon approach

LO IUDICE, NICOLA;ANDREOZZI, FRANCESCO;PORRINO, ANTONIO
2014

Abstract

A self-consistent calculation is performed within an equation of motion method to study the electric dipole response in the neutron rich 132Sn with special attention at the low-energy excitations associated with the pygmy dipole resonance. A basis of one- plus two-phonon states is constructed by solving iteratively a set of equations of motion and adopted to bring the nuclear Hamiltonian to diagonal form. The phonons are generated in a Tamm-Dancoff approximation using a Hartree-Fock basis. The Hamiltonian is composed of an intrinsic kinetic term and an optimized two-body chiral potential. If complemented with a weak phenomenological density dependent term, such a potential improves substantially the description of the dipole response as compared to other realistic interactions. The two-phonon states play an important role in determining the fine structure of the giant dipole resonance and in enhancing the fragmentation of the strength at low energy, in fair agreement with the available data. Insights into the nature of the excitations building up the pygmy resonance are gained from the analysis of the phonon composition and shell structure of the states.
2014
Dipole response in 132Sn within a self-consistent multiphonon approach / F., Knapp; LO IUDICE, Nicola; P., Vesel?; Andreozzi, Francesco; G., De Gregorio; Porrino, Antonio. - In: PHYSICAL REVIEW. C, NUCLEAR PHYSICS. - ISSN 0556-2813. - 90:1(2014), pp. 014310-1-014310-10. [10.1103/PhysRevC.90.014310]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/587071
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