Breakup of the proton halo nucleus 8B at a sub-Coulomb energy

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Abstract

We report inclusive breakup measurements of the proton halo nucleus 8B on a medium mass target, 90Zr. The experiment was carried out at the TriSol facility of the University of Notre Dame at a beam energy of 26.5 MeV, corresponding to 90% of the Coulomb barrier. The data include angular distributions of the 7Be breakup fragment and of the elastically scattered 8B nuclei, allowing a good normalization of the 7Be yields. The latter are found to be in good agreement with the prediction of continuum-discretized coupled-channel calculations, thus pointing to the direct excitation to the continuum as the main production mechanism. The integrated breakup cross section, 𝜎bu=170±40 mb, exhausts most of the total reaction cross section, indicating the dominance of direct processes below the barrier. A comparison of all existing breakup cross sections, on various targets at sub- and near-barrier energies, is also included.

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Palli, K., Pakou, A., Moro, A. M., O’Malley, P. D., Acosta, L., Sánchez-Benítez, A. M., Souliotis, G., Aguilera, E. F., Andrade, E., Godos, D., Sgouros, O., Soukeras, V., Agodi, C., Bailey, T. L., Bardayan, D. W., Boomershine, C., Brodeur, M., Cappuzzello, F., Carmichael, S., . . . Von Seeger, W. W. (2025). Breakup of the proton halo nucleus B8 at a sub-Coulomb energy. Physical Review. C, 111(2). https://doi.org/10.1103/physrevc.111.024615

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