First prompt in-beam γ-ray spectroscopy of a superheavy element: the 256Rf

J Rubert ,А Лопез-Мартенс ,P Papadakis ,Mitsuteru Asai ,F P Heßberger ,P Peura ,R Lozeva ,P Nieminen ,B Sulignano ,P Ruotsalainen ,K Hauschild ,J Sarén ,R Julin ,M Sandzelius ,U Jakobsson ,M Leino ,E Parr ,O Dorvaux ,P T Greenlees ,S Ketelhut ,Ch Theisen ,P Jones ,F Déchery ,J Piot ,J Pakarinen ,J Uusitalo ,T Grahn ,Zouhair Asfari ,J Sorri ,B Gall ,G Henning ,S Juutinen ,S Rinta ,P Rahkila ,A Herzáň ,J Ljungvall ,D M Cox ,R.‐D Herzberg ,C Scholey ,D Seweryniak ,L.-L Andersson ,T L Khoo ,M Venhart

doi:10.1088/1742-6596/420/1/012010

First prompt in-beam γ-ray spectroscopy of a superheavy element: the 256Rf

J Rubert , А Лопез-Мартенс + Show 41 more

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https://doi.org/10.1088/1742-6596/420/1/012010

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Journal: Journal of Physics: Conference Series	Publication Date: Mar 25, 2013
Citations: 1	License type: cc-iop-open

Affiliation: University of Strasbourg, GSI Helmholtz Centre for Heavy Ion Research, Institut de Recherche sur les Lois Fondamentales de l'Univers, ComUE Paris-Saclay, University of Jyväskylä, Argonne National Laboratory, Slovak Academy of Sciences

#Γ-ray Spectroscopic Techniques #MIVOC Method #Moments Of Inertia #Experimental Set-up #Neighboring Nuclei #Limits Of Instrumentation #Deformed Shell Gap #In-beam Γ-ray Spectroscopy #Transfermium Nuclei #Shell Gap

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Using state-of-the-art γ-ray spectroscopic techniques, the first rotational band of a superheavy element, extending up to a spin of 20 ℏ, was discovered in the nucleus 256Rf. To perform such an experiment at the limits of the present instrumentation, several developments were needed. The most important of these developments was of an intense isotopically enriched 50Ti beam using the MIVOC method. The experimental set-up and subsequent analysis allowed the 256Rf ground-state band to be revealed. The rotational properties of the band are discussed and compared with neighboring transfermium nuclei through the study of their moments of inertia. These data suggest that there is no evidence of a significant deformed shell gap at Z = 104.

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