Coulomb energy differences in t = 1 mirror rotational bands in (50)Fe and (50)Cr

Coulomb energy differences in t = 1 mirror rotational bands in (50)Fe and (50)Cr

Gamma rays from the N = Z-2 nucleus (50)Fe have been observed, establishing the rotational ground state band up to the state J(pi) = 11+ at 6.994 MeV excitation energy. The experimental Coulomb energy differences, obtained by comparison with the isobaric analog states in its mirror (50)Cr, confirm t...

Ausführliche Beschreibung

Gespeichert in:
Bibliographische Detailangaben
Veröffentlicht in:Physical review letters 2001-09, Vol.87 (12), p.122501-122501
Hauptverfasser: Lenzi, S M, Mărginean, N, Napoli, D R, Ur, C A, Zuker, A P, de Angelis, G, Algora, A, Axiotis, M, Bazzacco, D, Belcari, N, Bentley, M A, Bizzeti, P G, Bizzeti-Sona, A, Brandolini, F, von Brentano, P, Bucurescu, D, Cameron, J A, Chandler, C, De Poli, M, Dewald, A, Eberth, H, Farnea, E, Gadea, A, Garces-Narro, J, Gelletly, W, Grawe, H, Isocrate, R, Joss, D T, Kalfas, C A, Klug, T, Lampman, T, Lunardi, S, Martínez, T, Martínez-Pinedo, G, Menegazzo, R, Nyberg, J, Podolyak, Z, Poves, A, Ribas, R V, Rossi Alvarez, C, Rubio, B, Sánchez-Solano, J, Spolaore, P, Steinhardt, T, Thelen, O, Tonev, D, Vitturi, A, von Oertzen, W, Weiszflog, M
Format: Artikel
Sprache:eng
Online-Zugang:Volltext
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
Beschreibung
Zusammenfassung:Gamma rays from the N = Z-2 nucleus (50)Fe have been observed, establishing the rotational ground state band up to the state J(pi) = 11+ at 6.994 MeV excitation energy. The experimental Coulomb energy differences, obtained by comparison with the isobaric analog states in its mirror (50)Cr, confirm the qualitative interpretation of the backbending patterns in terms of successive alignments of proton and neutron pairs. A quantitative agreement with experiment has been achieved by exact shell model calculations, incorporating the differences in radii along the yrast bands, and properly renormalizing the Coulomb matrix elements in the pf model space.
ISSN:0031-9007
1079-7114