Abstract
In the context of the cluster model applied to the nuclear reaction d + 6Li at a laboratory energy of 171 MeV, the nucleus 6Li was examined within the framework of an α + p + n cluster model. The three-body model concept was incorporated into the interaction potential for the d + 6Li system through the construction of a double-folding potential based on the three-body model. The computed double-folding potential was employed as the real component of the optical potential for analyzing the experimental differential cross-section of elastic scattering in the d + 6Li nuclear reaction at 171 MeV laboratory energy. Meanwhile, the imaginary component was derived from the Woods-Saxon potential. The parameters of the optical potential were adjusted to optimize agreement with experimental data. This study includes comparisons between the calculated semi-microscopic potential and a phenomenological potential, accomplished through differential cross-section analysis. Additionally, parameters of the potentials are presented in tabular form. The best agreement with experimental differential cross-sections was achieved using the computed folding potential, based on the three-body model, which clearly indicates the α + p + n cluster structure within the 6Li nucleus.
Article Type
Original Study
First Page
1
Last Page
9
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Recommended Citation
Tursunbayev, Nurbek T.; Baimurzinova, Bota S.; and Urazbekov, Bakytzhan A.
(2024)
"Elastic scattering of deuteron beam on 6 Li nuclei in the context of the cluster model,"
Eurasian Journal of Physics and Functional Materials: Vol. 8:
No.
4, Article 1.
DOI: https://doi.org/10.69912/2616-8537.1231
