Folding Model Study of the Elastic Alpha-alpha Scattering at Low Energies
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DOI:
https://doi.org/10.15625/0868-3166/23/4/3418Abstract
The folding model analysis of the elastic \(\alpha + \alpha\) scattering at the incident energies below the reaction threshold of 34.7 MeV (in the lab system) has been done using the well-tested density dependent versions of the M3Y interaction and realistic choices for the \(^4\)He density. Because the absorption is negligible at the energies below the reaction threshold, we were able to probe the \(\alpha + \alpha\) optical potential at low energies quite unambiguously and found that the α + α overlap density used to construct the density dependence of the M3Y interaction is strongly distorted by the Pauli blocking. This result gives possible explanation of a long-standing inconsistency of the double-folding model in its study of the elastic \(\alpha + \alpha\) and \(\alpha\)-nucleus scattering at low energies using the same realistic density dependent M3Y interaction.Downloads
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Published
19-02-2014
How to Cite
[1]
N. H. Tan, N. H. Phuc, and D. T. Khoa, “Folding Model Study of the Elastic Alpha-alpha Scattering at Low Energies”, Comm. Phys., vol. 23, no. 4, p. 339, Feb. 2014.
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