Direct-Reaction Studies By Particle-γ Coincidence Spectroscopy Using Csi-Hpge And Si-Hpge Arrays

摘要

Particle-γ and particle-γ-γ coincidence spectroscopy has several advantages in the study of direct reactions (particularly in inverse kinematics) since it can generally allow determination of: decay paths; high-precision level energies; multipolarities of transitions; and cross sections. Techniques for studying direct reactions by particle-γ coincidence spectroscopy are presented for two cases: (1) heavy-ion reactions with CsI-HPGe, and (2) light-ion reactions with Si-HPGe. Future direct-reaction studies with radioactive ion beams (RIBs) will mostly involve low beam intensities and inverse kinematics (i.e., A_(beam)>A_(target)), which eliminates the traditional use of magnetic spectrometers. Particle-γ coincidence spectroscopy currently provides the most viable method to study direct reactions with nuclei of any level density. In the present study, the capabilities and limitations of the technique are explored.