Wen-Yu Shan, Hai-Zhou Lu, Shun-Qing Shen
Published 2012-03-22Version 1
Effect of spin-orbit scattering on quantum diffusive transport of two-dimensional massive Dirac fermions is studied by the diagrammatic technique. The quantum diffusion of massive Dirac fermions can be viewed as a singlet Cooperon in the massless limit and a triplet Cooperon in the large-mass limit. The spin-orbit scattering behaves like random magnetic fields only to the triplet Cooperon, and suppresses the weak localization of Dirac fermions in the large-mass regime. This behavior suggests an experiment to detect the weak localization of bulk subbands in topological insulator thin films, in which a narrowing of the cusp of the negative magnetoconductivity is expected after doping heavy-element impurities. Finally, a detailed comparison between the conventional two-dimensional electrons and Dirac fermions is presented for impurities of orthogonal, symplectic, and unitary symmetries.
Comments: 5 pages, 3 figures, 2 tables. To be submitted, comments are welcome
Journal: Phys. Rev. B 86, 125303 (2012)
Competition between weak localization and antilocalization in topological surface states
Weak localization of bulk channels in topological insulator thin film
The fundamental unit of quantum conductance and quantum diffusion for a gas of massive particles
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