| Literature DB >> 25302883 |
G S Simpson1, G Gey2, A Jungclaus3, J Taprogge4, S Nishimura5, K Sieja6, P Doornenbal5, G Lorusso5, P-A Söderström5, T Sumikama7, Z Y Xu8, H Baba5, F Browne9, N Fukuda5, N Inabe5, T Isobe5, H S Jung10, D Kameda5, G D Kim11, Y-K Kim12, I Kojouharov13, T Kubo5, N Kurz13, Y K Kwon11, Z Li14, H Sakurai15, H Schaffner13, Y Shimizu5, H Suzuki5, H Takeda5, Z Vajta16, H Watanabe5, J Wu17, A Yagi18, K Yoshinaga19, S Bönig20, J-M Daugas21, F Drouet22, R Gernhäuser23, S Ilieva20, T Kröll20, A Montaner-Pizá24, K Moschner25, D Mücher23, H Naïdja26, H Nishibata18, F Nowacki6, A Odahara18, R Orlandi27, K Steiger23, A Wendt25.
Abstract
Delayed γ-ray cascades, originating from the decay of (6⁺) isomeric states, in the very neutron-rich, semimagic isotopes (136,138)Sn have been observed following the projectile fission of a ²³⁸U beam at RIBF, RIKEN. The wave functions of these isomeric states are proposed to be predominantly a fully aligned pair of f(7/2) neutrons. Shell-model calculations, performed using a realistic effective interaction, reproduce well the energies of the excited states of these nuclei and the measured transition rates, with the exception of the B(E2;6⁺→4⁺) rate of ¹³⁶Sn, which deviates from a simple seniority scheme. Empirically reducing the νf(7/2)(2) orbit matrix elements produces a 4₁⁺ state with almost equal seniority 2 and 4 components, correctly reproducing the experimental B(E2;6⁺→4⁺) rate of ¹³⁶Sn. These data provide a key benchmark for shell-model interactions far from stability.Year: 2014 PMID: 25302883 DOI: 10.1103/PhysRevLett.113.132502
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161