Abstract
The local structures for V 2+ in CsMgX 3 (X=Cl, Br, I) are theoretically investigated from the perturbation formulas of the EPR parameters (zero-field splitting, g factors and the hyperfine structure constants) for a 3d 3 ion in trigonal symmetry based on the cluster approach. In these formulas, the contributions from the s-orbitals of the ligands, which were usually neglected in the previous treatments, are considered here. Based on the studies, we find that the local angles β (between the impurity-ligand bonding lengths and the C 3 axis) in the V 2+ centers are larger than the angles β H in the hosts, leading to the positive angular distortions Δ β ( = β - β H ) . The theoretical EPR parameters (particularly the results for CsMgI 3) show improvement compared with those in absence of the ligand s-orbital contributions or the above angular distortions.
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