Author(s)
|
Park, J (Lund U.) ; Knyazev, A (Lund U.) ; Rickert, E (Lund U.) ; Golubev, P (Lund U.) ; Cederkäll, J (Lund U. ; CERN) ; Andreyev, A N (CERN ; York U., England) ; de Angelis, G (INFN, Legnaro) ; Arnswald, K (Cologne U.) ; Barber, L (Manchester U.) ; Berger, C (Munich, Tech. U.) ; Berner, C (Munich, Tech. U.) ; Berry, T (Surrey U.) ; Borge, M J G (CERN ; Madrid, Inst. Estructura Materia) ; Boukhari, A (CERN ; CSNSM, Orsay) ; Cox, D (Jyvaskyla U.) ; Cubiss, J (York U., England) ; Cullen, D M (Manchester U.) ; Ovejas, J Díaz (Madrid, Inst. Estructura Materia) ; Fahlander, C (Lund U.) ; Gaffney, L P (CERN) ; Gawlik, A (CERN ; Warsaw U., Heavy Ion Lab) ; Gernhäuser, R (Munich, Tech. U.) ; Görgen, A (Oslo U.) ; Habermann, T (Darmstadt, Tech. Hochsch.) ; Henrich, C (Darmstadt, Tech. Hochsch.) ; Illana, A (INFN, Milan) ; Iwanicki, J (Warsaw U., Heavy Ion Lab) ; Johansen, T W (Oslo U.) ; Konki, J (CERN) ; Kröll, T (Darmstadt, Tech. Hochsch.) ; Nara Singh, B S (West Scotland U.) ; Rainovski, G (Sofiya U.) ; Raison, C (York U., England) ; Reiter, P (Cologne U.) ; Rosiak, D (Cologne U.) ; Saha, S (Darmstadt, GSI) ; Saxena, M (Warsaw U., Heavy Ion Lab) ; Schilling, M (Darmstadt, Tech. Hochsch.) ; Seidlitz, M (Darmstadt, Tech. Hochsch.) ; Snäll, J (Lund U.) ; Stahl, C (Darmstadt, Tech. Hochsch.) ; Stryjczyk, M (Leuven U.) ; Tengblad, O (Madrid, Inst. Estructura Materia) ; Tveten, G M (Oslo U.) ; Valiente-Dobón, J J (INFN, Milan) ; Duppen, P Van (Leuven U.) ; Viñals, S (Madrid, Inst. Estructura Materia) ; Warr, N (Cologne U.) ; Welker, A (CERN) ; Werner, L (Munich, Tech. U.) ; Witte, H De (Leuven U.) ; Zidarova, R (Sofiya U.) Mostrar todos os 52 autores |
Abstract
| A Coulomb excitation campaign on 106,108,110Sn at 4.4–4.5 MeV/u was launched at the HIE-ISOLDE facility at CERN. Larger excitation cross sections and γ-ray statistics were achieved compared to previous experiments at ∼2.8 MeV/u. More precise (B(E2;0+1→2+1)) values, lifetimes of states via the Doppler shift attenuation method, and new (B(E2;0+1→2+x)),(B(E2;2+1→4+1)) and (Q(2+1)) values from the new Miniball data will be obtained and applied to test modern nuclear structure theories. |