Fusion excitation functions near and below the Coulomb barrier for symmetric and asymmetric medium-mass systems |
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Authors: | D.M. De Castro Rizzo E. Bozek S. Cavallaro B. Delaunay J. Delaunay H. Dumont M.G. Saint-Laurent F. Terrasi |
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Affiliation: | Service de Physique Nucléaire — Basse Energie, CEN Saclay, 91191 Gif-sur-Yvette Cédex, France |
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Abstract: | Fusion excitation functions for the systems 12C + 46, 48, 50Ti, 28, 30Si + 30Si and 18O + 44Ca have been determined at energies near and below the Coulomb barrier. Inelastic excitation functions for the targets 48, 50Ti and 44Ca have been also measured in the same energy range. The absolute cross sections were obtained by in-beam γ-ray spectroscopy technique using a rotating target. Fusion cross sections ranging in magnitude from ~ 0.3 mb to ~ 1300 mb were determined with an accuracy of 10–20%. The fusion excitation functions are analysed in the frame of a semiclassical barrier-penetration model. From the analysis, the height, the radius and the curvature of the fusion barrier for the different systems are extracted. The fusion cross sections are compared with the calculations performed using different heavy-ion potentials. The enhancement of the cross sections at sub-Coulomb energies can be reproduced with a one-dimensional barrier-penetration model taking into account the zero-point motion of the surface of the reaction partners. The fusion cross section of the system 18O + 44Ca is well reproduced by quantum-mechanical calculations, introducing a new degree of freedom taking into account the formation of a neck during the fusion process. |
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Keywords: | Nuclear reactions |
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