In the recent years, cluster structures have been evidenced in many ground and excited states of light nuclei [1, 2]. The decay of highly excited states of 24Mg is studied in fusion evaporation events completely detected in charge in the reactions 12C+12C and 14N+10B at 95 and 80 MeV incident energy, respectively, and compared to the results of a pure statistical model [3, 4]. Inclusive variables are in general well reproduced by the model. We found clear deviations from the statistical model if we select emission channels involving multiple α particles which are more probable than expected from a purely statistical behavior. Data from 12C+12C reaction have been analyzed in order to study the decay of the Hoyle state of 12C* with two different selections: peripheral binary collisions and 6α decay channel in central events. To continue the investigation on light systems, we have recently measured the 16O+12C reaction at three different beam energies, namely Ebeam = 90, 110 and 130 MeV. Preliminary results are presented.
Clustering effects in fusion evaporation reactions with light even-even N=Z nuclei. the24Mg and28Si cases / Morelli, L., Bruno, M., D'Agostino, M., Baiocco, G., Gulminelli, F., Cinausero, M., Degerlier, M., Fabris, D., Gramegna, F., Marchi, T., Barlini, S., Bini, M., Casini, G., Gelli, N., Pasquali, G., Piantelli, S., Valdre', S.. - In: EPJ WEB OF CONFERENCES. - ISSN 2101-6275. - ELETTRONICO. - 122:(2016), pp. 0-0. (5th International Workshop on Compound-Nuclear Reactions and Related Topics, CNR 2015 jpn 2015) [10.1051/epjconf/201612211002].
Clustering effects in fusion evaporation reactions with light even-even N=Z nuclei. the24Mg and28Si cases
Barlini, S.;Bini, M.;Casini, G.;Pasquali, G.;Piantelli, S.;Valdre, S.
2016
Abstract
In the recent years, cluster structures have been evidenced in many ground and excited states of light nuclei [1, 2]. The decay of highly excited states of 24Mg is studied in fusion evaporation events completely detected in charge in the reactions 12C+12C and 14N+10B at 95 and 80 MeV incident energy, respectively, and compared to the results of a pure statistical model [3, 4]. Inclusive variables are in general well reproduced by the model. We found clear deviations from the statistical model if we select emission channels involving multiple α particles which are more probable than expected from a purely statistical behavior. Data from 12C+12C reaction have been analyzed in order to study the decay of the Hoyle state of 12C* with two different selections: peripheral binary collisions and 6α decay channel in central events. To continue the investigation on light systems, we have recently measured the 16O+12C reaction at three different beam energies, namely Ebeam = 90, 110 and 130 MeV. Preliminary results are presented.
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