Spin and quadrupole correlations by three-spin interaction in the frustrated pyrochlore magnet Tb2+xTi2-xO7+y

Abstract

We have investigated the origin of the magnetic dipole correlations σQz σ-Qz characterized by the modulation wave vector k (12,12,12) observed in the frustrated pyrochlore magnet Tb2+xTi2-xO7+y. This magnetic short-range order cannot be accounted for by adding further-neighbor exchange interactions to the nearest-neighbor pseudospin-12 Hamiltonian for quantum pyrochlore magnets. Using classical Monte Carlo simulation and quantum simulation based on thermally pure quantum (TPQ) states we have shown that the spin correlations with k (12,12,12) are induced at low temperatures by a three-spin interaction of a form σr σr^z σr z , which is a correction to the Hamiltonian due to the low crystal-field excitation. Simulations using TPQ states have shown that the spin correlations coexist with electric quadrupole correlations σQα σ-Qβ (α, β = x, y) with k 0. These results suggest that the putative quantum spin liquid state of Tb2+xTi2-xO7+y is located close to phase boundaries of the spin-ice, quadrupole-ordered, and magnetic-ordered states in the classical approximation, and that the three-spin interaction brings about a quantum disordered ground state with both spin and quadrupole correlations.