Vector Spin Seebeck Effect in antiferromagnet LuFeO₃ with canted spins

The generation, detection and manipulation of spins are imperative for spintronics research and applications. The spin injection through the spin Seebeck effect (SSE), typically done on magnets with collinear moments, is always along the out-of-plane direction. Here, we report the observation of a vector SSE effect in antiferromagnet (AF) LuFeO₃ with canted spins. The temperature gradient applied along out-of-plane on the c-axis as well as in ab-plane directions both inject spin current from AF insulator into the heavy metal layer and voltage generated by inverse spin Hall effect can be detected. We show that the detected thermovoltages are related to the canted spin structure of LuFeO₃ and are viable in zero magnetic field. Both the canted spin direction and the sign of the detected thermovoltages can be controlled by a small magnetic field at around 150 Oe at room temperature. [1] These results have been compared with that from a similar experiment on LaFeO₃. [2] This class of AF insulators broaden the scope for exploring spin phenomena and provide a new class of material for low-field antiferromagnetic spin caloritronics.