Scientific Reports (Feb 2023)
Dressed j eff-1/2 objects in mixed-valence lacunar spinel molybdates
Abstract
Abstract The lacunar-spinel chalcogenides exhibit magnetic centers in the form of transition-metal tetrahedra. On the basis of density-functional computations, the electronic ground state of an Mo4 13+ tetrahedron has been postulated as single-configuration a 1 2 e 4 t 2 5, where a 1, e, and t 2 are symmetry-adapted linear combinations of single-site Mo t 2g atomic orbitals. Here we unveil the many-body tetramer wave-function: we show that sizable correlations yield a weight of only 62% for the a 1 2 e 4 t 2 5 configuration. While spin–orbit coupling within the peculiar valence orbital manifold is still effective, the expectation value of the spin–orbit operator and the g factors deviate from figures describing nominal t 5 j eff = 1/2 moments. As such, our data documents the dressing of a spin–orbit j eff = 1/2 object with intra-tetramer excitations. Our results on the internal degrees of freedom of these magnetic moments provide a solid theoretical starting point in addressing the intriguing phase transitions observed at low temperatures in these materials.
