Nature of low-lying electric dipole resonance excitations in 74Ge

Isospin properties of dipole excitations in 74 Ge are investigated using the ({\alpha},{\alpha}'{\gamma}) reaction and compared to ({\gamma},{\gamma}) data. The results indicate that the dipole excitations in the energy region of 6 to 9 MeV adhere to the scenario of the recently found splitting...

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Published inarXiv.org
Main Authors Negi, D, Wiedeking, M, Lanza, E G, Litvinova, E, Vitturi, A, Bark, R A, Bernstein, L A, Bleuel, D L, Bvumbi, S, Bucher, T D, Daub, B H, Dinoko, T S, Easton, J L, Gorgen, A, Guttormsen, M, Jones, P, Kheswa, B V, Khumalo, N A, Larsen, A C, Lawrie, E A, Lawrie, J J, Majola, S N T, Masiteng, L P, Nchodu, M R, Ndayishimye, J, Newman, R T, Noncolela, S P, Orce, J N, Papka, P, Pellegri, L, Renstrøm, T, Roux, D G, Schwengner, R, Shirinda, O, Siem, S
Format Paper Journal Article
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 16.09.2016
Subjects
Electric dipoles
Excitation
Physics - Nuclear Experiment
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Summary:Isospin properties of dipole excitations in 74 Ge are investigated using the ({\alpha},{\alpha}'{\gamma}) reaction and compared to ({\gamma},{\gamma}) data. The results indicate that the dipole excitations in the energy region of 6 to 9 MeV adhere to the scenario of the recently found splitting of the region of dipole excitations into two separated parts: one at low energy, being populated by both isoscalar and isovector probes, and the other at high energy, excited only by the electromagnetic probe. Relativistic quasiparticle time blocking approximation (RQTBA) calculations show a reduction in the isoscalar E1 strength with an increase in excitation energy, which is consistent with the measurement.
ISSN:2331-8422
DOI:10.48550/arxiv.1609.04914