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Theory of multiple magnetic scattering for quasiparticles on a gapless topological insulator surface

arXiv:1203.5910 · doi:10.1103/PhysRevB.85.245433

Abstract

We develop a general low-energy multiple-scattering partial-wave theory for gapless topological insulator (TI) surfaces in the presence of magnetic impurities. As applications, we discuss the differential cross section (CS) $dΛ/dφ$, the total CS $Λ_{tot}$, the Hall component of resistivity $Ω$, and inverse momentum relaxation time $Γ_{M}$ for single- and two-centered magnetic scattering. We show that differing from the nonmagnetic impurity scattering, $s\mathtt{-}$wave approximation is not advisable and convergent in the present case. The symmetry of CS is reduced and the backscattering occurs and becomes stronger with increasing the effective magnetic moment $M$ of single magnetic impurity. We show a non-zero perpendicular resistivity component $Ω$, which may be useful for tuning the Hall voltage of the sample. Consistent with the analysis of $dΛ/dφ$, by comparing $Γ_{M}$ with $Λ_{tot}$, we can determine different weights of backscattering and forward scattering. Similar to CS, $Ω$ and $Γ_{M}$ also exhibit oscillating behavior for multiple magnetic scattering centers due to interference effect.

19pages, 4 figures