EPJ Web of Conferences (Dec 2013)

Onset of collectivity in neutron-rich Sr and Kr isotopes: Prompt spectroscopy after Coulomb excitation at REX-ISOLDE, CERN

  • Clément E.,
  • Görgen A.,
  • Dijon A.,
  • de France G.,
  • Bastin B.,
  • Blazhev A.,
  • Bree N.,
  • Butler P.,
  • Delahaye P.,
  • Ekstrom A.,
  • Georgiev G.,
  • Hasan N.,
  • Iwanicki J.,
  • Jenkins D.,
  • Korten W.,
  • Larsen A.C.,
  • Ljungvall J.,
  • Moschner K.,
  • Napiorkowski P.,
  • Pakarinen J.,
  • Petts A.,
  • Renstrom T.,
  • Seidlitz M.,
  • Siem S.,
  • Sotty C.,
  • Srebrny J.,
  • Stefanescu I.,
  • Tveten G.M.,
  • Van de Walle J.,
  • Warr N.,
  • Wrzosek-Lipska K.,
  • Zielińska M.,
  • Bauer C.,
  • Bruyneel B.,
  • Butterworth J.,
  • Fitzpatrick C.,
  • Fransen C.,
  • Gernhäuser R.,
  • Hess H.,
  • Lutter R.,
  • Marley P.,
  • Reiter P.,
  • Siebeck B.,
  • Vermeulen M.,
  • Wiens A.,
  • De Witte H.

DOI
https://doi.org/10.1051/epjconf/20136201003
Journal volume & issue
Vol. 62
p. 01003

Abstract

Read online

A rapid onset of quadrupole deformation is known to occur around the neutron number 60 in the neutron-rich Zr and Sr isotopes. This shape change has made the neutron-rich A = 100 region an active area of experimental and theoretical studies for many decades now. We report in this contribution new experimental results in the neutron rich 96,98Sr investigated by safe Coulomb excitation of radioactive beams at the REX-ISOLDE facility, CERN. Reduced transition probabilities and spectroscopic quadrupole moments have been extracted from the differential Coulomb excitation cross section supporting the scenario of shape coexistence/change at N = 60. Future perspectives are presented including the recent experimental campaign performed at ILL-Grenoble.