Wednesday, August 29, 2012

1208.5708 (Andrej Mesaros et al.)

Zero-energy states bound to a magnetic pi-flux vortex in a
two-dimensional topological insulator
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Andrej Mesaros, Robert-Jan Slager, Jan Zaanen, Vladimir Juricic
We show that the existence of a pair of zero-energy modes bound to a vortex carrying a pi-flux is a generic feature of the topologically non-trivial phase of the M-B model, which was introduced to describe the topological band insulator in HgTe quantum wells. We explicitly find the form of the zero-energy states of the corresponding Dirac equation, which contains a novel momentum-dependent mass term and describes a generic topological transition in a band insulator. The obtained modes are exponentially localized in the vortex-core, with the dependence of characteristic length on the parameters of the model matching the dependence extracted from a lattice version of the model. We consider in full generality the short-distance regularization of the vector potential of the vortex, and show that a particular choice yields the modes localized and simultaneously regular at the origin. Finally, we also discuss a realization of two-dimensional spin-charge separation through the vortex zero-modes.
View original: http://arxiv.org/abs/1208.5708

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