Cross section calculations of deuteron-induced reactions using the extended CCONE code

Nakayama, Shinsuke*; Araki, Shohei*; Watanabe, Yukinobu*; Iwamoto, Osamu  ; Ye, T.*; Ogata, Kazuyuki*

The CCONE code has been extended so as to make it possible to calculate the cross sections for deuteron-induced reactions. In the extended CCONE code, elastic breakup and stripping reactions to continuum are calculated using the Continuum-Discretized Coupled-Channels theory (CDCC) and the Glauber model, respectively, and the calculated results are inputted to the CCONE codeas direct reaction components. Statistical decay from compound nuclei formed by nucleon stripping and deuteron absorption is calculated with the exciton and Hauser-Feshbach models implemented in the original CCONE code. The extended CCONE code is applied to analyses of deuteron-induced reactions on Al and Ni. CDCC calculations for deuteron elastic scattering show good agreement with the experimental data at incident energies of several tens of MeV. The calculated double-differential (, ) cross sections reproduce the measured ones at forward angles for incidentenergies of 56 and 100 MeV fairly well.