Electromagnetic Selection Rules for 24Mg in a 6α Cluster Model with D4h Symmetry
Abstract
In the framework of a macroscopic α-cluster model, the structural properties and the spectroscopy of the 24Mg nucleus are investigated. Special attention is devoted to the electromagnetic selection rules imposed by the point-symmetry group D4h that leaves invariant the adopted 6α equilibrium configuration, a square bipyramid. The analysis entails the application of group-theoretical identities and character tables, in a way familiar to quantum chemists. The results show that the occurrence of interband E0, E2, and M1, M2, M3 transitions is strictly regulated by the transformation properties of the excited vibrational modes to which the states in the process belong. Unlike the 12C nucleus in the D3h-symmetric 3α arrangement, M1 transition channels are active between states corresponding to a single quantum of vibrational excitation. Conversely, the measured E1 strengths in the 24Mg spectrum are attributable to the excitation of single-nucleon degrees of freedom, as E1 transitions are forbidden by the model. The present investigation is a only part of a wider work, encompassing the spectrum and the whole electromagnetic properties of this nucleus in the considered D4h-symmetric configuration, in preparation.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.