Comprehensive analysis of large α yields observed in 6Li-induced reactions

Description

Background: Large α yields have been reported over the years in reactions with 6 Li and 7 Li projectiles. Previous theoretical analyses have shown that the elastic breakup (EBU) mechanism (i.e., projectile breakup leaving the target in its ground state) is able to account only for a small fraction of the total α-inclusive breakup cross sections, pointing toward the dominance of nonelastic breakup (NEB) mechanisms. Purpose: We aim to provide a systematic study of the α-inclusive cross sections observed in nuclear reactions induced by 6 Li projectiles. In addition to estimating the total α singles' cross sections, it is our goal to evaluate angular and energy distributions of these α particles and compare them with experimental data, when available. Method: We compute separately the EBU and NEB components of the inclusive breakup cross sections. For the former, we use the continuum-discretized coupled-channels (CDCC) method, which treats this mechanism to all orders. For the NEB part, we employ the model proposed by Ichimura et al. [Phys. Rev. C 32, 431 (1985)], within the distorted-wave Born approximation (DWBA). Results: Overall, the sum of the computed EBU and NEB cross sections is found to reproduce very well the measured singles' cross sections. In all cases analyzed, we find that the inclusive breakup cross section is largely dominated by the NEB component. Conclusions: The presented method provides a global and systematic description of inclusive breakup reactions induced by 6 Li projectiles. It provides also a natural explanation of the previously observed underestimation of the measured α yields by CDCC calculations. The method used here can be extended to other weakly bound projectiles, including halo nuclei.

Abstract

España, Ministerio de Economía y Competitividad FIS2014-53448-C2-1-P

Abstract

Unión Europea, Fondo Europeo de Desarrollo Regional FIS2014-53448-C2-1-P

Abstract

Unión Europea, Programa de Investigación e Innovación Horizonte 2020, 654002

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