9Be + 120Sn scattering at near-barrier energies within a four-body model

RODRÍGUEZ-GALLARDO, M.; ABRIOLA, D.; CARNELLI, P.F.F.; FIGUEIRA, J.M.; MARTÍ, G.V.; ARAZI, A.; ARIAS, J.M.; CAPURRO, O.A.; DE BARBARÁ, E.; FIMIANI, L.; MARTÍNEZ HEIMMAN, D.; CASAL, J.; LICHTENTHÄLER FILHO, R.; CARDONA, M.A.; FERNÁNDEZ NIELLO, J.; HOJMAN, D.; PACHECO, A.J.

Physical Review C

American Physical Society

Año: 2018 vol. 97

2469-9985

Cross sections for elastic and inelastic scattering of the weakly bound Be9 nucleus on a Sn120 target have been measured at seven bombarding energies around and above the Coulomb barrier. The elastic angular distributions are analyzed with a four-body continuum-discretized coupled-channels (CDCC) calculation, which considers Be9 as a three-body projectile (α+α+n). An optical model analysis using the São Paulo potential is also shown for comparison. The CDCC analysis shows that the coupling to the continuum part of the spectrum is important for the agreement with experimental data even at energies around the Coulomb barrier, suggesting that breakup is an important process at low energies. At the highest incident energies, two inelastic peaks are observed at 1.19(5) and 2.41(5) MeV. Coupled-channels (CC) calculations using a rotational model confirm that the first inelastic peak corresponds to the excitation of the 21+ state in Sn120, while the second one likely corresponds to the excitation of the 31- state.