EPJ Web of Conferences (Mar 2014)

Study of Ground State Wave-function of the Neutron-rich 29,30Na Isotopes through Coulomb Breakup

  • Rahaman A.,
  • Datta Pramanik U.,
  • Aumann T.,
  • Beceiro S.,
  • Boretzky K.,
  • Caesar C.,
  • Carlson B.V.,
  • Catford W.N.,
  • Chakraborty S.,
  • Chatterjee S.,
  • Chartier M.,
  • Angelis G.De.,
  • Cortina-Gil D.,
  • Gonzalez-Diaz D.,
  • Emling H.,
  • Diaz Fernandez P.,
  • Fraile L.M.,
  • Ershova O.,
  • Geissel H.,
  • Heil M.,
  • Jonson B.,
  • Kelic A.,
  • Johansson H.,
  • Kruecken R.,
  • Kroll T.,
  • Kurcewicz J.,
  • Langer C.,
  • Bleis T.Le,
  • Leifels Y.,
  • Munzenberg G.,
  • Marganiec J.,
  • Nociforo C.,
  • Najafi A.,
  • Panin V.,
  • Paschalis S.,
  • Pietri S.,
  • Plag R.,
  • Reifarth R.,
  • Ricciardi V.,
  • Rossi D.,
  • Ray J.,
  • Simon H.,
  • Scheidenberge C.,
  • Typel S.,
  • Taylor J.,
  • Togano Y.,
  • Volkov V.,
  • Weick H.,
  • Wagner A.,
  • Wamers F.,
  • Weigand M.,
  • Winfield J.S.,
  • Yakorev D.,
  • Zoric M.

DOI
https://doi.org/10.1051/epjconf/20146602087
Journal volume & issue
Vol. 66
p. 02087

Abstract

Read online

Coulomb breakup of unstable neutron rich nuclei 29,30Na around the ‘island of inversion’ has been studied at energy around 434 MeV/nucleon and 409 MeV/nucleon respectively. Four momentum vectors of fragments, decay neutron from excited projectile and γ-rays emitted from excited fragments after Coulomb breakup are measured in coincidence. For these nuclei, the low-lying dipole strength above one neutron threshold can be explained by direct breakup model. The analysis for Coulomb breakup of 29,30Na shows that large amount of the cross section yields the 28Na, 29Na core in ground state. The predominant ground-state configuration of 29,30Na is found to be 28Na(g.s)⊗νs1/2 and 29Na(g.s)⊗νs1/2,respectively.