Nuclear levels in152Eu |
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Authors: | T von Egidy W Kaiser W Mampe C Hillenbrand W Stöffl R G Lanier K Mühlbauer O W B Schult H R Koch H A Baader R L Mlekodaj R K Sheline E B Shera J Ungrin P T Prokofjev L I Simonova M K Balodis H Seyfarth B Kardon W Delang P Göttel D Breitig W R Kane R F Casten H J Scheerer P Glässl E Huenges M Löffler H Rösler H K Vonach |
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Institution: | 1. Technische Universit?t, München, Germany 2. Institut Max von Laue-Paul Langevin 156 X Centre de Tri, F-38042, Grenoble Cedex, France 4. Lawrence Livermore Laboratory, Livermore, California, USA 5. Technical University, Munich, Germany 6. Research Establishment, Ris?, Denmark 8. Florida State University, Tallahassee, Florida, USA 10. Los Alamos Scientific Laboratory, Los Alamos, New Mexico, USA 11. Niels Bohr Institute, Ris?, Denmark 13. Physics Institute, Latvian Academy of Science, Riga, USSR 7. Kernforschungsanlage Jülich, Germany 17. Brookhaven National Laboratory, Upton, N.Y., USA 19. Technische Universit?t, München 20. Universit?t München, Germany
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Abstract: | The transitional nucleus152Eu has been studied using the (n, e), (n, γ), (n res,γ), (n, γγ), (d, p), (d, t) and (p, d) reactions. The experiments have been performed at nine different laboratories. A model independent level scheme was established including 95 levels below 510 keV and nearly 900 transitions by combination of low energy transitions and reaction data. More than 20 additional levels result from gamma rays and/or charged particle reactions. The level scheme is interpreted in terms of the Nilsson model indicating that152Eu is a deformed nucleus. Seven rotational bands and Nilsson configurations are established. An additional 27 rotational bands are tentatively or speculatively assugned. Gallagher-Moszkowski splittings are discussed. The neutron binding energy was determined as 6305.2±0.5 keV. The energy of the 9.3 h 0? isomer is 45.599 keV. The lifetimes of four levels were measured. Nuclear Reactions151Eu(n,γ),E n =thermal and resonance; measuredE γ ,I γ ,E c.e.,I c.e.,γγ Coinc.,γγΔt coinc.;151Eu(d, p),E=12MeV and 14MeV;153Eu(d, t),E=12MeV;153Eu(p, d),E =18MeV; deduced level scheme of152Eu,J, π, T 1/2,cc, Nilsson configurations. Magnetic electron spectrometer, curved crystal spectrometer, Ge(Li) and Si(Li) detectors, magnetic spectrographs. Enriched targets. |
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