E2 polarization charge in [formula omitted]Sn

M Lipoglavšek ,I Ahmad,P Reiter,M Górska,D Seweryniak,H Grawe,M Huhta,G Hackman,J Blomqvist,C J Lister ,R V F Janssens ,W B Walters ,J Nyberg ,G L Poli ,J A Cizewski ,C Fahlander ,J Uusitalo ,D Nisius ,J Schwartz ,C N Davids ,M P Carpenter ,S M Fischer ,J J Ressler ,A A Sonzogni

doi:10.1016/s0370-2693(98)01178-2

E2 polarization charge in [formula omitted]Sn

M Lipoglavšek , I Ahmad + Show 22 more

https://doi.org/10.1016/s0370-2693(98)01178-2

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Journal: Physics Letters B	Publication Date: Nov 1, 1998
Citations: 27

Affiliation: Argonne National Laboratory, University of Milan, University of Maryland, College Park, Lund University, Jožef Stefan Institute, Uppsala University, Rutgers, The State University of New Jersey, GfK (Germany), University of Warsaw, National Superconducting Cyclotron Laboratory, Michigan State University, KTH Royal Institute of Technology

#Conversion-electron Spectroscopy #Argonne National Laboratory + Show 8 more

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Abstract

The nucleus 102 Sn, which is the lightest Sn isotope with known excited states, was investigated with the 50 Cr( 58 Ni, α2n) reaction using delayed in-beam γ-ray and conversion-electron spectroscopy. The experimental setup was designed to study the decay of μs-long isomeric states by placing γ-ray and electron detectors behind the focal plane of the Fragment Mass Analyzer at the Argonne National Laboratory. A 44 keV conversion-electron line corresponding to the (6 +)→(4 +) transition in 102 Sn was identified and a half-life of 0.62 +0.43 −0.19 μs was measured for the (6 +) state. From the available experimental information neutron effective charges from 1.6 to 2.3 e were deduced, based on the comparison with different shell-model calculations.

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