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HK: Fachverband Physik der Hadronen und Kerne
HK 5: Structure and Dynamics of Nuclei I
HK 5.3: Talk
Monday, March 11, 2024, 17:30–17:45, HBR 19: C 5a
Dipole strength distribution of 96Mo: Electric and magnetic contributions* — •V. Skibina1, O. Papst1, J. Isaak1, A. D. Ayangeakaa2,3, T. Beck1,4, R. Beyer5, A. Boeltzig5, M. L. Cortés1,6, S. W. Finch3,7, U. Friman-Gayer3,7,8, D. Gribble2,3, M. Heumüller1, X. James2,3, R. V. F. Janssens2,3, S. Johnson2,3, A. Junghans5, J. Kleemann1, F. Kluwig9, P. Koseoglou1, T. Lossin5, B. Löher10, M. Müscher9, M. Pichotta5, N. Pietralla1, K. Prifti1, G. Rusev11, K. Römer5, D. Savran10, K. Schmidt5, R. Schwengner5, A. Thees5, A. Wagner5, V. Werner1, A. Yadav5, and A. Zilges9 — 1IKP, TU Darmstadt — 2UNC, NC, USA — 3TUNL, NC, USA — 4MSU, MI, USA — 5HZDR, Dresden — 6RIKEN, JP — 7Duke U., NC, USA — 8ESS, SE — 9University of Cologne — 10GSI, Darmstadt — 11LANL, USA
We performed a Nuclear Resonance Fluorescence experiment on 96Mo at the γELBE facility with a 7.8 MeV endpoint energy bremsstrahlung beam. The experiment follows studies with 13 MeV endpoint energy [1], which were sensitive mainly up to the neutron-separation threshold. The present analysis focuses on intermediate energies, yields cross sections, branching ratios and, in combination with HIγS data, parities of dipole-excited states.
Supported by the DFG under grant Nos. GRK 2891 * Project-ID 499256822, and SFB 1245 - project ID 279384907, and by U.S. DOE under grant Nos. DE-FG02-97ER41041 and DE-FG02-97ER41033.
[1] G. Rusev et al., Phys. Rev. C 79, 061302(R) (2009).
Keywords: Nuclear Resonance Fluorescence; Bremsstrahlung; Dipole Strength Distribution; gELBE facility; 96Mo