Jahn-Teller driven quadrupolar ordering and spin-orbital dimer formation in GaNb4Se8

Abstract

The lacunar spinel GaNb4Se8 is a tetrahedral cluster Mott insulator where spin-orbit coupling on molecular orbitals and Jahn-Teller energy scales are competitive. GaNb4Se8 undergoes a structural and anti-polar ordering transition at TQ = 50 K that corresponds to a quadrupolar ordering of molecular orbitals on Nb4 clusters. A second transition occurs at TM = 29 K, where local distortions on the Nb4 clusters rearrange. We present a single crystal x-ray diffraction investigation these phase transitions and solve the crystal structure in the intermediate TM < T < TQ and low T < TM temperature phases. The intermediate phase is a primitive cubic P213 structure with a staggered arrangement of Nb4 cluster distortions. A symmetry mode analysis reveals that the transition at TQ is continuous and described by a single Jahn-Teller active amplitude mode. In the low temperature phase, the symmetry of Nb4 clusters is further reduced and the unit cell doubles into an orthorhombic P212121 space group. Nb4 clusters rearrange through this transition to form a staggered arrangement of intercluster dimers, suggesting a valence bond solid magnetic state.