Transfer Reactions on Neutron-rich Nuclei at REX-ISOLDE

AIP Conf. Proc.

1165
363
(2009)
Th. Kröll, V. Bildstein, K. Wimmer, R. Krücken, R. Gernhäuser, R. Lutter, W. Schwerdtfeger, P. Thirolf, B. Bastin, N. Bree, J. Diriken, M. Huyse, N. Patronis, R. Raabe, P. Van Duppen, P. Vermaelen, J. Cederkäll, E. Clément, J. Van de Walle, D. Voulot, F. Wenander, A. Blazhev, M. Kalkühler, P. Reiter, M. Seidlitz, N. Warr, A. Deacon, C. Fitzpatrick, S. Freeman, S. Das Gupta, G. Lo Bianco, S. Nardelli, E. Fiori, G. Georgiev, M. Scheck, L. M. Fraile, D. Balabanski, T. Nilsson, E. Tengborn, J. Butterworth, B. S. Nara Singh, L. Angus, R. Chapman, B. Hadinia, R. Orlandi, J. F. Smith, P. Wady, G. Schrieder, M. Labiche, J. Johansen, K. Riisager, H. B. Jeppesen, A. O. Macchiavelli, T. Davinson for the REXISOLDE collaboration and MINIBALL collaboration

We report on one‐ and two‐neutron transfer reactions to study the single‐particle properties of nuclei at the border of the “island of inversion.” The (d, p)‐ and (t, p)‐reactions in inverse kinematics on the neutron‐rich isotope 
30
Mg
,
 delivered as radioactive beam by the REX‐ISOLDE facility, have been investigated. The outgoing protons have been detected and identified by a newly built array of Si detectors. The γ‐decay of excited states has been detected in coincidence by the MINIBALL array. First results for 
31
Mg
 and from the search for the second, spherical, 
0
+
 state in 
32
Mg
 are presented.

DOI
10.1063/1.3232117
Published on
nwarr