Simultaneous resolution of the micromagnetic and spin transport equations applied to current-induced domain wall dynamics
Résumé
In this paper, we use simulations to study current-induced domain wall dynamics by simultaneously resolving
the spin transport and micromagnetic equations for a three-dimensional ferromagnetic strip. In contrast to local
approaches, which neglect mutual interaction between spins and magnetic moments, our approach recalculates
the spin distribution at each time step using the generalized drift diffusion model, which takes the transverse
spin absorption phenomenon into account. We quantified the differences between a local approach and treatment
based on a self-consistent method by plotting the domain wall velocity as a function of the domain wall width. We
also characterized the domain wall velocity and the Walker breakdown condition as a function of the transverse
spin absorption length, which plays a crucial role in domain wall dynamics.
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