Gamma Decay of Unbound Neutron-Hole States in Sn-133
Date
2017Author
SAKURAI, H.
SODERSTROM, P. A.
TVETEN, G. M.
VAJTA, Zs.
JUNGCLAUS, A.
DOORNENBAL, P.
WIMMER, K.
Tostevin, J. A.
CHEN, S.
NACHER, E.
SAHIN, E.
SHIGA, Y.
STEPPENBECK, D.
TANIUCHI, R.
XU, Z. Y.
ANDO, T.
BABA, H.
GARROTE, F. L. Bello
FRANCHOO, S.
HADYNSKA-KLEK, K.
LIU, J.
LOKOTKO, T.
MOMIYAMA, S.
MOTOBAYASHI, T.
NAGAMINE, S.
Nakatsuka, N.
NIIKURA, M.
ORLANDI, R.
SAITO, T.
VAQUERO, V.
Yalcinkaya, Mehtap
Kusoglu, Aslı
GARGANO, A.
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Show full item recordAbstract
Excited states in the nucleus Sn-133, with one neutron outside the double magic Sn-132 core, were populated following one-neutron knockout from a Sn-134 beam on a carbon target at relativistic energies at the Radioactive Isotope Beam Factory at RIKEN. Besides the gamma rays emitted in the decay of the known neutron single-particle states in Sn-133 additional gamma strength in the energy range 3.5-5.5 MeV was observed for the first time. Since the neutron-separation energy of Sn-133 is low, S-n = 2.402(4) MeV, this observation provides direct evidence for the radiative decay of neutron-unbound states in this nucleus. The ability of electromagnetic decay to compete successfully with neutron emission at energies as high as 3 MeV above threshold is attributed to a mismatch between the wave functions of the initial and final states in the latter case. These findings suggest that in the region southeast of Sn-132 nuclear structure effects may play a significant role in the neutron versus gamma competition in the decay of unbound states. As a consequence, the common neglect of such effects in the evaluation of the neutron-emission probabilities in calculations of global beta-decay properties for astrophysical simulations may have to be reconsidered.
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