Clementine Santamaria
(CEA Saclay, SPhN)
21/02/2013, 11:20
Expected to be doubly magic, 78Ni is a key nucleus to further understand the nuclear shell structure.
Its spectroscopy will allow to probe the Z=28 and N=50 shell closures for neutron-rich nuclei. Several experiments on neighbouring nuclei have been performed to this end.
The study of N=50 isotones reveals that copper (Z=29), zinc (Z=30), germanium (Z=32) and selenium (Z=34) isotopic chains...
Megumi NIIKURA
(Department of Physics, University of Tokyo)
21/02/2013, 11:40
We will propose an experiment for coming MINOS campaign at RIBF to investigate proton shell evolution towards to 78Ni by means of in-beam gamma-ray spectroscopy. The goal of the experiment is to characterize a proton f7/2 hole states in the Cu isotopes populated by one-proton knockout reaction: (p,2p). This will allow us to understand a migration of shell structure induced by the tensor part...
Masayasu Ishihara
(RIKEN Nishina Center)
21/02/2013, 12:00
In-beam gamma-ray spectroscopy with RI beams has been cultivated and intensively used in the last two decades to make a major contribution to the progress of the spectroscopy on nuclei far from stability. The main reaction processes so far used with in-flight RI beams are the intermediate-energy Coulex, proton inelastic scattering, and one-nucleon removal reactions. These processes have been...