Skyrmion-size dependence of the topological Hall effect: A real-space calculation

Abstract

Motivated by the recent discoveries of magnets harboring short-pitch skyrmion lattices, we investigate the skyrmion-size dependence of the topological Hall effect. By means of large-scale real-space calculations, we find that the Hall conductivity takes its extreme value in the crossover region where both the real-space and momentum-space Berry curvature play a crucial role. We also investigate how the optimum skyrmion size (λ sk*) depends on the lifetime of itinerant electrons (τ) and coupling constant between electrons and localized spins (J). For the former, we show that λ sk* is proportional to τ, which indicates that λ sk* is much less sensitive to τ than the conventional expectation that λ sk* is proportional to the mean-free path τ. For the latter, we show that the non-adiabaticity considerably suppresses the topological Hall effect when the time scale determined by the skyrmion size and Fermi velocity is shorter than 1/J. However, its effect on λ sk* is not so siginificant and λ sk* is about ten times the lattice constant in a wide range of J and τ.