Factors affecting the topological Hall effect in strongly correlated layered magnets: spin of the magnetic atoms, polar and azimuthal angle subtended by the spin texture

Abstract

The Hamiltonian of a two dimensional (2D) magnetic material in the strong correlation regime with a spin texture, for which both azimuthal and polar angle changes, is solved using su(2) path integral method. The dependence of the Chern number on the atomic spin (S), azimuthal angle (q1) and polar angle (q2) modulation vector of the spin texture on a bipartite honeycomb lattice is found. For S ≤ 3 it was found that Chern number depends strongly on q2 and S. We discuss applicability of the model to several van der Waals magnets. Experimentally, it is expected that, with increase in spin modulation vector the sign of the topological Hall conductivity changes, +σxyTHE -σxyTHE or vice-versa, when S is constant. We also propose several heterostrucures for experimental realization of this effect.