Robust Biaxial Anisotropy and Switchable Néel Vectors in LaFeO₃ Epitaxial Films: An Attractive Platform for Antiferromagnetic Spintronics

Antiferromagnets with highly stable but switchable Néel vectors are desired for antiferromagnetic spintronics with ultrafast speed and terahertz frequencies. Electrical switching of antiferromagnetic insulators has been demonstrated using binary antiferromagnets while large families of complex antiferromagnets such as perovskites are largely unexplored. Here, we show that epitaxial LaFeO₃ thin films on SrTiO₃(001) exhibit clear, robust biaxial anisotropy with a spin-flop field of a few tesla. Angular-dependent spin-Hall magnetoresistance (SMR) characterizations of Pt/LaFeO₃ bilayers with the current channel along SrTiO₃ [100] and [110] reveal distinct, intriguing shapes and field dependence. Simulations using a macrospin model accurately describe the main behavior and fine features of the SMR data, from which key antiferromagnetic parameters are extracted. Furthermore, remanent SMR measurement confirms the high fidelity of Néel vector along either easy axis of the biaxial anisotropy, indicating that epitaxial films of LaFeO₃ and potentially other perovskite antiferromagnets offer an attractive platform for antiferromagnetic spintronics.