Evolution of fusion hindrance for asymmetric systems at deep sub-barrier energies

Evolution of fusion hindrance for asymmetric systems at deep sub-barrier energies

Measurements of fusion cross-sections of 7Li and 12C with 198Pt at deep sub-barrier energies are reported to unravel the role of the entrance channel in the occurrence of fusion hindrance. The onset of fusion hindrance has been clearly observed in C12+Pt198 system but not in Li7+Pt198 system, within...

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Veröffentlicht in:Physics letters. B 2016-04, Vol.755, p.332-336
Hauptverfasser: Shrivastava, A., Mahata, K., Pandit, S.K., Nanal, V., Ichikawa, T., Hagino, K., Navin, A., Palshetkar, C.S., Parkar, V.V., Ramachandran, K., Rout, P.C., Kumar, Abhinav, Chatterjee, A., Kailas, S.
Format: Artikel
Sprache:eng
Schlagworte:
Adiabatic model
Asymmetry
Coupled channels calculations
Coupling
Damping
Deep sub-barrier energies
Elementary particles
Evolution
Fusion cross sections
Nuclear Experiment
Nuclear fusion
Physics
Projectiles
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Zusammenfassung:Measurements of fusion cross-sections of 7Li and 12C with 198Pt at deep sub-barrier energies are reported to unravel the role of the entrance channel in the occurrence of fusion hindrance. The onset of fusion hindrance has been clearly observed in C12+Pt198 system but not in Li7+Pt198 system, within the measured energy range. Emergence of the hindrance, moving from lighter (6,7Li) to heavier (12C, 16O) projectiles is explained employing a model that considers a gradual transition from a sudden to adiabatic regime at low energies. The model calculation reveals a weak effect of the damping of coupling to collective motion for the present systems as compared to that obtained for systems with heavier projectiles.
ISSN:0370-2693
1873-2445
DOI:10.1016/j.physletb.2016.02.029