Magnetic order induced crystal symmetry lowering in ACr2O4 ferrimagnetic spinels

Abstract

We demonstrate that the onset of complex spin orders in ACr2O4 spinels with magnetic A=Co, Fe and Cu ions lowers the lattice symmetry. This is clearly indicated by the emergence of anisotropic lattice dynamics -- as evidenced by the pronounced phonon splittings -- even when experiments probing static distortions fail. We show that the crystal symmetry in the magnetic phase is reduced from tetragonal to orthorhombic for FeCr2O4 and CuCr2O4 with Jahn-Teller active A-site ions. The conical spin structure in FeCr2O4 is also manifested in the phonon frequencies. In contrast, the multiferroic CoCr2O4 with no orbital degrees of freedom remains nearly cubic in its ground state.