Abstract
The results obtained by reconstructing of the experimental angular dependences of polarization tensors, the tensors of orientation of multipole moments, and the dynamical deformation of 24Mg nuclei produced in the 2+ state at 1.369 MeV in inelastic deuteron scattering on 24Mg nuclei at Ed = 15.3 MeV for deuteron scattering angles between 25° and 165° in the laboratory frame are presented. The experimental results are compared with the results of calculations based on various versions of the coupled-channel method. The role of spin-orbit and tensor d24Mg interactions is discussed along with the influence of the reorientation effect. The correlation features of the 2+ state of the 24Mg nucleus at 1.369 MeV that were determined in inelastic deuteron and alpha-particle scattering on 24Mg are compared.
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