Abstract
Using a position sensitive detector array, back-angle coincidence measurements of breakup fragments at sub-barrier energies has enabled the complete characterisation of the breakup processes in the reactions of 6,7Li with 208Pb. Breakup processes and their time-scales are identified through the reaction Q-values and the relative energy of the captured breakup fragments. The majority of breakup processes fast enough (∼10-22s) to affect fusion are triggered by transfer of a neutron from 6Li, and of a proton to 7Li. These breakup mechanisms should therefore have a major contribution to the ∼30% suppression of complete fusion observed at above-barrier energies. © Owned by the authors 2012.
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CITATION STYLE
Luong, D. H., Hinde, D. J., Dasgupta, M., Evers, M., Rafiei, R., & Du Rietz, R. (2012). Reconstructing breakup at sub-barrier energies. In EPJ Web of Conferences (Vol. 35). https://doi.org/10.1051/epjconf/20123505007
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