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Paper detail

A unified drift-diffusion theory for transverse spin currents in spin valves, domain walls and other textured magnets

Spins transverse to the magnetization of a ferromagnet only survives over a short distance. We develop a drift-diffusion approach that captures the main features of transverse spin effects in systems with arbitrary spin textures (vortices, domain walls) and generalizes the Valet-Fert theory. In addition to the standard characteristic lengths (mean free path for majority and manority electrons, spin diffusion length), the theory introduces two lengths scales, the transverse spin coherence length and the (Larmor) spin precession length. We show how those lengths can be extracted from ab-initio calculations or measured with giant magneto-resistance experiments. In long (adiabatic) domain walls, we provide an analytic formula that expresses the so called &#34;non-adiabatic&#34; (or field like) torque in term of those lengths scales. However, this &#34;non adiabatic&#34; torque is no longer a simple material parameter and depends on the actual spin texture: in thin (< 10nm) domain walls, we observe very significant deviations from the adiabatic limit.

preprint2012arXivOpen access
Cyril PetitjeanDavid LucXavier Waintal
cond-mat.mes-hall
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Cyril PetitjeanDavid LucXavier Waintal

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