The four α-particle decay of the excited 16O* quasi-projectile (QP) produced in peripheral 16O + 12C reactions at 130 MeV is studied in detail. The different decay channels leading to the four α-particle final state are reconstructed from an event-by-event analysis of α correlations through the population of intermediate 8Be and 12C resonant states. A small but non-negligible contribution of 8Be gs evaporation is observed. The branching ratios of the different evaporation channels are compared to the prediction of an Hauser-Feshbach code (once characteristics of the QP source are extracted from the experimental data), which very accurately reproduces all the inclusive observables of the reaction. However, significative deviations are observed. In particular, the experimental population of the Hoyle state is significantly lower than the predictions of the statistical model, suggesting possible structure effects in the Coulomb barrier and/or in the transmission coefficients.

Four α-particle decay of the excited 16O* quasi-projectile in the 16O + 12C reaction at 130 MeV / Bruno, M; D’Agostino, M; Managlia, M V; Morelli, L; Baiocco, G; Gulminelli, F; Frosin, C; Barlini, S; Buccola, A; Camaiani, A; Casini, G; Cicerchia, M; Cinausero, M; Degerlier, M; Fabris, D; Gramegna, F; Mantovani, G; Marchi, T; Ottanelli, P; Pasquali, G; Piantelli, S; Valdré, S. - In: JOURNAL OF PHYSICS. G, NUCLEAR AND PARTICLE PHYSICS. - ISSN 0954-3899. - ELETTRONICO. - 46:(2019), pp. 0-0. [10.1088/1361-6471/ab46cd]

Four α-particle decay of the excited 16O* quasi-projectile in the 16O + 12C reaction at 130 MeV

Morelli, L;Frosin, C;Barlini, S;Buccola, A;Camaiani, A;Casini, G;Ottanelli, P;Pasquali, G;Piantelli, S;Valdré, S
2019

Abstract

The four α-particle decay of the excited 16O* quasi-projectile (QP) produced in peripheral 16O + 12C reactions at 130 MeV is studied in detail. The different decay channels leading to the four α-particle final state are reconstructed from an event-by-event analysis of α correlations through the population of intermediate 8Be and 12C resonant states. A small but non-negligible contribution of 8Be gs evaporation is observed. The branching ratios of the different evaporation channels are compared to the prediction of an Hauser-Feshbach code (once characteristics of the QP source are extracted from the experimental data), which very accurately reproduces all the inclusive observables of the reaction. However, significative deviations are observed. In particular, the experimental population of the Hoyle state is significantly lower than the predictions of the statistical model, suggesting possible structure effects in the Coulomb barrier and/or in the transmission coefficients.
2019
46
0
0
Bruno, M; D’Agostino, M; Managlia, M V; Morelli, L; Baiocco, G; Gulminelli, F; Frosin, C; Barlini, S; Buccola, A; Camaiani, A; Casini, G; Cicerchia, M...espandi
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1175395
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