The influence of experimental setup on the spectroscopy investigation of 14Be by Coulomb breakup reaction

Abstract

The two-body core+2n cluster structure was implemented to describe the two-neutron halo nucleus 14Be, where the core12Be was assumed inert and at ground state and the dineutron was assumed at pure 2S0 state. Based on such a structure the three-body continuum-discretized coupled-channel (CDCC) calculation was successfully used to deal with the 14Be breakup reactions of 14Be+12C at 68~MeV/nucleon and 14Be+ Pb at 35~MeV/nucleon.Consequently, we modeled the kinematically complete measurement experiment of 14Be (35~MeV/nucleon) Coulomb breakup at a lead target with the help of Geant4. From the simulation data the relative energy spectrum was constructed by the invariant mass method and B(E1) spectrum was extracted using virtual photon model. The influence of the target thickness and detector performance on the spectroscopy was investigated.