par Bottoni, S.;Gamba, E.R.;De Gregorio, G.;Gargano, Angela;Leoni, Silvia;Fornal, Bartosz;Brancadori, N.;Ciconali, Giorgio;Crespi, Fabio Celso Luigi;Cieplicka-Oryńczak, N.;Iskra, L.W;Colombi, Giacomo;Kim, Yung-hee;Köster, Ulli;Michelagnoli, Caterina;Dunkel, Felix;Esmaylzadeh, Arwin;Gerhard, Lisa;Jolie, Jan;Knafla, Lukas;Ley, Mario;Régis, Jean Marc;Schomaker, K.;Sferrazza, Michele 
Référence Physical Review C, 107, 1, 014322
Publication Publié, 2023-01-01
Référence Physical Review C, 107, 1, 014322
Publication Publié, 2023-01-01
Article révisé par les pairs
| Résumé : | The lifetime of the 11/21+ state in the Sb131 nucleus was measured at the LOHENGRIN spectrometer of the Institut Laue-Langevin via neutron-induced fission of U235 using γ-ray fast-timing techniques. The obtained value of T1/2=3(2) ps, at the edge of the sensitivity of the experimental method, is the first result for the 11/21+ state half-life in neutron-rich Sb isotopes. The corresponding quadrupole reduced transition probability to the ground state is B(E2)=1.4-0.6+1.5W.u., indicating a noncollective nature of this state. Realistic shell-model calculations performed in a large valence space reproduce well the experimental value and point to a dominant 2+(Sn130) - πg7/2 configuration for the 11/21+ state, as expected in a weak-coupling scenario. At the same time, the sum of the quadrupole strength of the multiplet states is predicted to exceed the one of the Sn130 core as a consequence of the equal contribution of the proton and the proton-neutron quadrupole matrix elements, pointing to possible development of collectivity already in the close neighborhood of Sn132. |
