Colour symmetry and altermagnetic-like spin textures in noncollinear antiferromagnets

Abstract

We present a formalism based on colour symmetry to analyse the momentum-space spin textures of non-collinear antiferromagnets. We show that, out of the spin textures allowed by the magnetic point group, one can extract a component that is invariant by general rotations in spin space, and can exist in the absence of spin-orbit coupling, in complete analogy to spin textures in altermagnets. We demonstrate this approach in the case of three complex, non-collinear magnets, Mn3Ir(Ge,Si), Pb2MnO4 and Mn3GaN. For Mn3GaN, we also show that the predictions of colour-symmetry analysis are consistent with density functional theory calculations performed on the same system both with and without spin-orbit coupling.