Direct Nuclear Reactions in Lithium-Lithium Systems: 7Li+7Li at Elab = 2 - 16 MeV

Angular distributions of 7Li(7Li,t), (7Li,α) and (7Li,6He) reactions were measured for laboratory energies from 2 16 MeV. Exact finite range DWBA analyses were performed with the aim to identify contributions of direct processes and to investigate the applicability of DWBA to such few nucleon systems. It turned out that DWBA can be successfully applied to estimate differential and total cross sections of direct transfer processes in 7Li+7Li interaction. The direct mechanism was found to play a dominant role in most of these reactions but significant contributions of other, strongly energy dependent processes were also established. It is suggested that these processes might be due to isolated resonances superimposed on the backround of statistical fluctuations arising from interference of compound nucleus and direct transfer contributions. Nuclear Reactions: 7Li+7Li at 2≤ Elab ≤ 16 MeV; measured angular distributions and excitation functions of p, d, t, α, and 6He-channels; deduced direct mechanism contribution to t, α and 6He-channels by DWBA analysis; reaction mechanism inferred. PACS: 25.70.-x; 25.70.Hi 1 ar X iv :0 80 1. 22 64 v1 [ nu cl -e x] 1 5 Ja n 20 08