Classical Spin Nematic Transition in LiGa0.95In0.05Cr4O8

Abstract

We present the results of a combined 7Li NMR and diffraction study on LiGa0.95In0.05Cr4O8, a member of LiGa1-xInxCr4O8 "breathing" pyrochlore family. Via specific heat and NMR measurements, we find that the complex sequence of first-order transitions observed for x=0 is replaced by a single, apparently second-order transition at Tf=11 K. Neutron and X-ray diffraction rule out both structural symmetry lowering and magnetic long-range order as the origin of this transition. Instead, reverse Monte Carlo fitting of the magnetic diffuse scattering indicates that the low temperature phase may be described as a collinear spin nematic state, characterized by a quadrupolar order parameter. This state also shows signs of short range order between collinear spin arrangements on tetrahedra, revealed by mapping the reverse Monte Carlo spin configurations onto a three-state color model describing the manifold of nematic states.