EPJ Web of Conferences (Mar 2014)

Present Status of KEK Isotope Separation System

  • Hirayama Y.,
  • Jeong S.C.,
  • Watanabe Y.X.,
  • Imai N.,
  • Ishiyama H.,
  • Miyatake H.,
  • Oyaizu M.,
  • Kim Y.H.,
  • Mukai M.,
  • Sonoda T.,
  • Wada M.,
  • Huyse M.,
  • Kudryavtsev Yu.,
  • Van Duppen P.

DOI
https://doi.org/10.1051/epjconf/20146611017
Journal volume & issue
Vol. 66
p. 11017

Abstract

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KISS (KEK Isotope Separation System) has been constructed at Nishina Re-search Center (NRC) of RIKEN to study the decay properties of heavy neutron-rich iso-topes with mass number around A∼200 along the neutron magic number of N = 126 for the astrophysical interest. The isotopes of interest will be produced by multi-nucleon transfer reactions in neutron-rich heavy ion collisions (e.g. 136Xe projectile on 198Pt target). KISS consists of a gas-cell system for thermalizing (stopping and neutralizing) and fast-transporting reaction products to the gas cell exit hole, a laser system for the res-onant ionization, and a mass-separator system followed by a detection system for the decay spectroscopy. KISS will allow us to study unknown isotopes produced in weak re-action channels under low background conditions. The off-line test of the KISS has been finished. As a next step, on-line test experiments have been performed to investigate the overall efficiency and selectivity of the system as a function of the injected 56Fe beam intensity from the RIKEN Ring Cyclotron (RRC).