Octupolar vs N\'eel Order in Cubic 5d2 double perovskites

Abstract

We report time-of-flight neutron spectroscopic and diffraction studies of the 5d2 cubic double pervoskite magnets, Ba2MOsO6 (M = Zn, Mg, Ca). These cubic materials are all described by antiferromagnetically-coupled 5d2 Os6+ ions decorating a face-centred cubic (FCC) lattice. They all exhibit thermodynamic anomalies consistent with phase transitions at a temperature T*, and exhibit a gapped magnetic excitation spectrum with spectral weight concentrated at wavevectors typical of type I antiferromagnetic orders. While muon spin resonance experiments show clear evidence for time reversal symmetry breaking, no corresponding magnetic Bragg scattering is observed at low temperatures. These results, consistent with low temperature octupolar or quadrupolar order, are discussed in the context of other 5d2 DP magnets, and theories for d2 ions on a FCC lattice which predict exotic orders driven by multipolar interactions.