Frustration driven magnetic states of A-site spinels probed by μSR.

The normal A-site spinels MnAlO, FeAlO, CoAlO, as well as related mixed (MnFeAlO) and partially inverted (FeAlO) spinels have been studied by μSR. The magnetic ions are subject to magnetic frustration by competing interactions. In all materials and at all temperatures the μSR spectra consist of two signals suggesting a bimodal distribution of the fluctuation rates of magnetic moments. A characteristic temperature T is found in each compound, representing either a magnetic phase transition into a long-range ordered state (MnAlO, FeAlO) or the formation of a spin liquid phase (FeAlO, CoAlO, MnFeAlO). The magnetic ground state of MnAlO shows coexistence of antiferromagnetic and spin liquid phases. In FeAlO and CoAlO long-range order is suppressed altogether, the ground state can be characterized as a fast relaxing spin liquid coexisting with a small fraction of paramagnetic spins. The partial replacement of Mn by Fe in MnFeAlO prevents long-range order and leads to a spin liquid state in the low temperature limit. The partial occupancy of B-sites by magnetic ions in FeAlO strengthens the exchange coupling, allowing the formation of long-range magnetic order at a rather high temperature (~100 K). Magnetic phase diagrams are presented demonstrating that for the studied compounds the magnetic properties are determined by the degree of frustration. [ABSTRACT FROM AUTHOR]