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HK: Fachverband Physik der Hadronen und Kerne
HK 28: Structure and Dynamics of Nuclei VIII
HK 28.3: Vortrag
Mittwoch, 12. März 2025, 16:30–16:45, HS 2 Physik
Nuclear resonance fluorescence of 242Pu — •M. Beuschlein1, J. Birkhan1, J. Kleemann1, O. Papst1, N. Pietralla1, R. Schwengner2, C. A. Ur3, S. Weiß2, V. Werner1, U. Ahmed1, T. Beck1,4, I. Brandherm1, A. Gupta1, J. Hauf1, K. E. Ide1, P. Koseoglou1, H. Mayr1, C. M. Nickel1, K. Prifti1, T. Stetz1, and R. Zidarova1 — 1IKP, Darmstadt, Germany — 2HZDR, Dresden, Germany — 3ELI-NP, IFIN-HH, Bucharest-Magurele, Romania — 4FRIB, East Lansing, MI, USA
The availability of nuclear structure information of transuranium actinides impacts the modeling of stellar nucleosynthesis and supports isotope-selective material inspection via photonuclear reactions. However, available experimental data are scarce. The first nuclear resonance fluorescence (NRF) experiment on 242Pu was conducted at the S-DALINAC at TU Darmstadt to probe its low-energy dipole response under stringent safety precautions. A PuO2 sample of 1 g was irradiated by bremsstrahlung up to an endpoint energy of 3.7 MeV. The comparison of NRF spectra to measurements of the sample’s activity and natural background revealed photo-excited dipole states of 242Pu. Evidence for fragments of the M1 scissors mode and for low-lying E1 excitations was found, based on the assignment of intrinsic projection quantum numbers, K, from measured decay branching ratios. Experimental details, γ-ray spectra, and first results on the most prominent observed transitions in 242Pu will be presented.
This work is supported by the DFG through the research grant GRK 2891 "Nuclear Photonics" under Project-ID No. 499256822.
Keywords: nuclear resonance fluorescence; dipole response; transuranium actinides; scissors mode; nuclear structure