Spectroscopy of 161Hf from low to high spin

Authors :: Mason, P. J. R.
Simpson, J.
Paul, E. S.
Riley, M. A.
Auranen, Kalle
Badran, Hussam
Baron, J. S.
Boston, A. J.
Davis-Merry, T.
Grahn, Tuomas
Greenlees, Paul
Herzan, Andrej
Jakobsson, Ulrika
Joss, D. T.
Julin, Rauno
Juutinen, Sakari
Konki, Joonas
Leino, Matti
McPeake, C.
Miller, S. L.
O'Neill, G.
Pakarinen, Janne
Papadakis, Philippos
Partanen, Jari
Peura, Pauli
Rahkila, Panu
Ruotsalainen, Panu
Sandzelius, Mikael
Sarén, Jan
Scholey, Catherine
Sharpey-Schafer, J. F.
Sinclair, L.
Sorri, Juha
Stolze, Sanna
Uusitalo, Juha
Villafani, K.
Wearing, F.
Wrigh, J. P.
Publication Year :: 2014
Publisher :: American Physical Society, 2014.
Abstract: Excited states in the neutron-deficient nucleus 161 72Hf89 have been populated using the 118Sn(48Ti,5n) 161Hf and 110Pd(56Fe,5n) 161Hf fusion-evaporation reactions at 240 and 270 MeV, respectively. The level scheme for 161Hf has been extended with the observation of new band structures and an I π = (13/2+) isomeric state with a half-life of 4.8(2) μs has been identified. The decay path from this isomer to the (7/2−) ground state is established. The yrast band, based on the (13/2+) isomeric state, is extended up to (73/2+) and side band structures are identified up to (69/2−) and (55/2−). Quasiparticle assignments for these rotational structures are made on the basis of their alignment properties and Woods-Saxon cranked shell-model calculations. peerReviewed