Universal Scaling of the Spin Hall Effect
Abstract
We study the spin Hall (SH) effect for the Dirac electrons in terms of the spin and magnetic-moment accumulation coefficients -Γ00 gs(m)zs(m)z xy. We take short-range nonmagnetic impurities into account within the self-consistent T-matrix approximation. Similarly to the universal scaling for the anomalous Hall (AH) effect, we find three disctinct regimes by changing the electric conductivity σyy; the superclean regime with -Γ00 gs(m)zs(m)z xy σyy owing to the skew scattering, moderately dirty regime with almost constant -Γ00 gs(m)zs(m)z xy, and dirty regime with a new scaling relation -Γ00 gs(m)zs(m)z xy (σyy)0.6 whose exponent differs from that of the AH conductivity. Our results construct a unified theory of the SH effect without any ambiguity of spin current.
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