Evolution of the $\gamma$-ray strength function in neodymium isotopes

Evolution of the $\gamma$-ray strength function in neodymium isotopes

Phys. Rev. C 106, 034314 (2022) The experimental gamma-ray strength functions (gamma-SFs) of 142,144-151Nd have been studied for gamma-ray energies up to the neutron separation energy. The results represent a unique set of gamma-SFs for an isotopic chain with increasing nuclear deformation. The data...

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Hauptverfasser: Guttormsen, M, Ay, K. O, Ozgur, M, Algin, E, Larsen, A. C, Garrote, F. L. Bello, Berg, H. C, Campo, L. Crespo, Dahl-Jacobsen, T, Furmyr, F. W, Gjestvang, D, Görgen, A, Hagen, T. W, Ingeberg, V. W, Kheswa, B. V, Kullmann, I. K. B, Klintefjord, M, Markova, M, Midtbø, J. E, Modamio, V, Paulsen, W, Pedersen, L. G, Renstrøm, T, Sahin, E, Siem, S, Tveten, G. M, Wiedeking, M
Format: Artikel
Sprache:eng
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Physics - Nuclear Experiment
Physics - Nuclear Theory
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Zusammenfassung:Phys. Rev. C 106, 034314 (2022) The experimental gamma-ray strength functions (gamma-SFs) of 142,144-151Nd have been studied for gamma-ray energies up to the neutron separation energy. The results represent a unique set of gamma-SFs for an isotopic chain with increasing nuclear deformation. The data reveal how the low-energy enhancement, the scissors mode and the pygmy dipole resonance evolve with nuclear deformation and mass number. The data indicate that the mechanisms behind the low-energy enhancement and the scissors mode are decoupled from each other.
DOI:10.48550/arxiv.2204.08852