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Charge Radius Change in the Heavy Tin Isotopes until A = 132 from Laser Spectroscopy

F. Le Blanc,L. Cabaret,J.E. Crawford,S. Essabaa,V. Fedoseyev,W. Geithner,J. Genevey,M. Girod,R. Horn,G. Huber,S. Kappertz,J. Lassen,J.K.P. Lee,G. Le Scornet,V. Mishin,R. Neugart,J. Obert,J. Oms,A. Ouchrif,S. Peru,J. Pinard,H. Ravn,B. Roussière,J. Sauvage,D. Verney,and the Isolde Collaboration

European physical journal A, Hadrons and nuclei(2002)

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Abstract
Laser spectroscopy measurements have been carried out on the very neutron-rich tin isotopes with the COMPLIS experimental setup. Using the 5s25p23P0 → 5s25p6s3P1 optical transition, hyperfine spectra of 126-132Sn and 125m, 127m, 129m-131mSn where recorded for the first time. The variation of the mean-square charge radius ( δ〈r2〉) between these nuclei and nuclear moments of the isomers and the odd isotopes were thus measured. An odd-even staggering which inverts at A = 130 is clearly observed. This indicates a small appearance of a plateau on the δ〈r2〉 which has to be confirmed by measuring the isotope shift beyond A = 132.
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PACS. 21.10.Ft Charge distribution – 21.10.Ky Electromagnetic moments – 31.30.Gs Hyperfine interactions and isotope effects,Jahn-Teller effect
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