Cluster rearrangement by chiral charge order in lacunar spinel GaNb4Se8

Abstract

Transition-metal atoms with d electrons sometimes form clusters in crystals, which significantly affects the physical properties. Such a cluster formation frequently accompanies a change in the crystal system, leading to the presence of domains with different crystal orientations. In particular, the cubic symmetry is rarely retained after the cluster formation. Here, we identify a cubic-to-cubic phase transition in lacunar spinel GaNb4Se8, where the change in the lattice parameter is less than 0.0001%. Each Nb3.25+ tetramer with seven 4d electrons is distorted into a Nb3+ trimer and a Nb4+ monomer induced by charge disproportionation among Nb ions. While the Nb3+ trimer with six 4d electrons forms spin-singlets in the sigma-bonding orbitals for three Nb-Nb bonds, a localized S=1/2 spin remains on the Nb4+ ion. Furthermore, a local electric dipole moment is induced along the three-fold rotation axis of each distorted tetramer by the cluster rearrangement. The electric dipole moments are regularly arranged to maintain the cubic symmetry, giving rise to chiral order.