Naslov
Low-energy quadrupole states in neutron-rich tin nuclei

Autori
Yüksel, E. ; Colò, G. ; Khan, E. ; Niu, Y. F.

Izvornik
Physical review. C (2469-9985) 97 (2018), 6; 064308, 11

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Ključne riječi
nuclei ; isoscalar quadrupole strength

Sažetak
We present a study on the isoscalar quadrupole strength in tin nuclei, focusing mainly on the low-energy region. The calculations are performed using the Skyrme-type energy density functionals within the fully self-consistent quasiparticle random phase approximation, allowing for a good description of the experimental data for the first 2+ state and the isoscalar giant quadrupole resonance. It is found that the first 2+ state and the low-energy quadrupole states between 3 and 6 MeV display an opposite behavior with increasing neutron number. While the strength of the first 2+ state decreases, some excited states start to accumulate between 3 and 6 MeV, and increase their strength with increasing neutron number. This low-energy region between 3 and 6 MeV is quite sensitive to the changes in the shell structure with increasing neutron number. In particular, between 116Sn and 132Sn, the filling of the neutron orbitals with large values of j , has an important impact on the low-energy region. Our analysis shows that the low-energy states have a noncollective character, except the first 2+ state. In addition, the states in the low-energy region above 5 MeV display an interesting pattern: with the increase of the neutron number, their strength increases and their nature changes, namely they switch from proton excitations to neutron-dominated one. We conclude that the low-energy quadrupole states between 3 and 6 MeV can provide information about the shell evolution in open-shell nuclei.

Izvorni jezik
Engleski

Znanstvena područja
Fizika

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