Analysis and results of the Sn-104 Coulomb excitation experiment
Yazar
Bloor, D.
Naqvi, F.
Singh, B. S. Nara
Nyberg, J.
Nociforo, C.
Obertelli, A.
Pfuetzner, M.
Pietralla, N.
Podolyak, Z.
Prochazka, A.
Ralet, D.
Reiter, P.
Rudolph, D.
Schaffner, H.
Schirru, F.
Scruton, L.
Swaleh, T.
Taprogge, J.
Wadsworth, R.
Warr, N.
Weick, H.
Guastalla, G.
Di Julio, D. D.
Gorska, M.
Cederkall, J.
Boutachkov, P.
Golubev, P.
Pietri, S.
Grawe, H.
Nowacki, F.
Algora, A.
Amei, F.
Arici, T.
Atac, A.
Bentley, M. A.
Blazhev, A.
Brambilla, S.
Braun, N.
Camera, F.
Wendt, A.
Wieland, O.
Winfield, J. S.
Wollersheim, H. J.
Domingo Pardo, C.
Estrade, A.
Farinon, F.
Ger, J.
Goel, N.
Grebosz, J.
Habermann, T.
Hoischen, R.
Jansson, K.
Jolie, J.
Jungclaus, A.
Kojouharov, I.
Knoebel, R.
Kumar, R.
Kurcewicz, J.
Kurz, N.
Lalovic, N.
Merchan, E.
Moschner, K.
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The analysis of the Coulomb excitation experiment conducted on Sn-104 required a strict selection of the data in order to reduce the large background present in the gamma-ray energy spectra and identify the gamma-ray peak corresponding to the Coulomb excitation events. As a result the B(E2; 0(+) -> 2(+)) value could be extracted, which established the downward trend towards Sn-100 and therefore the robustness of the N=Z=50 core against quadrupole excitations.
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