Speaker
Daniyar Janseitov
(BLTP)
Description
The first 10 excited states of the carbon isotope were studied in terms of single-particle and collective models of excitation. Experimental cross sections were obtained by the well-known $\vartriangle$E–E method. Elastic scattering data were analyzed using an optical model including a nucleus–nucleus interaction potential, while inelastic scattering data were processed using the coupled-channels approach. For the single-particle model, the spectroscopic amplitudes were obtained through calculations of the large-scale shell model with the YSOXT effective NN-potential. A double folding potential was obtained for the d + $^{13}$C system. A comparison of model calculations with the experimental cross sections was demonstrated.
| Section | Experimental and theoretical studies of nuclear reactions |
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Primary author
Daniyar Janseitov
(BLTP)
Co-authors
Dr
Alimov Dilshod
(INP)
Alla Demyanova
(NRC "Kurchatov Institute")
Andrey Danilov
(NRC Kurchatov Institute)
Bakytzhan Urazbekov
(JINR)
Dinara Valiolda
(BLTP/KAZNU)
Maulen Nassurlla
(Institute of Nuclear Physics, ME of Republic of Kazakhstan)
Nassurlla Burtebayev
(Institute of Nuclear Physics, ME of Republic of Kazakhstan)
