Spin correlations of quantum-spin-liquid and quadrupole-ordered states of Tb2+xTi2-xO7+y

Abstract

Spin correlations of the frustrated pyrochlore oxide Tb2+xTi2-xO7+y have been investigated by using inelastic neutron scattering on single crystalline samples (x=-0.007, 0.000, and 0.003), which have the putative quantum-spin-liquid (QSL) or electric-quadrupolar ground states. Spin correlations, which are notably observed in nominally elastic scattering, show short-ranged correlations around L points [q = (12,12,12)], tiny antiferromagnetic Bragg scattering at L and points, and pinch-point type structures around points. The short-ranged spin correlations were analyzed using a random phase approximation (RPA) assuming the paramagnetic state and two-spin interactions among Ising spins. These analyses have shown that the RPA scattering intensity well reproduces the experimental data using temperature and x dependent coupling constants of up to 10-th neighbor site pairs. This suggests that no symmetry breaking occurs in the QSL sample, and that a quantum treatment beyond the semi-classical RPA approach is required. Implications of the experimental data and the RPA analyses are discussed.