Piezomagnetic effect in 5d transition metal oxides Y2Ir2O7 and Cd2Os2O7 with all-in/all-out magnetic order

Abstract

We investigated the piezomagnetic effect in pyrochlore-type oxides Y2Ir2O7 and Cd2Os2O7, which show a non-coplanar magnetic structure called the all-in/all-out antiferromagnetic order at low temperatures. The all-in/all-out magnetic order can be viewed as a ferroic order of the xyz-type magnetic octupoles. We observed a linear development of magnetization with applying stress for both materials. We then estimated the powder-averaged piezomagnetic tensor at 50 K to be Q = 5.74 × 10-6 μB/Ir·MPa for Y2Ir2O7, and Q = 3.49 × 10-7 μB/Os·MPa for Cd2Os2O7. We discuss the microscopic mechanism of the piezomagnetic effect in terms of the stress-induced modification of the g-tensor anisotropy and Dzyaloshinskii-Moriya (D-M) interactions. This work paves the way for the further development of piezomagnetic materials using a strategy based on magnetic multipoles.