arXiv:1008.0531 Abstract | arXiv Analytics

arXiv:1008.0531 [cond-mat.mes-hall]Abstract References Reviews Resources

Dynamics of the (spin-) Hall effect in topological insulators and graphene

Published 2010-08-03Version 1

A single two-dimensional Dirac cone with a mass gap produces a quantized (spin-) Hall step in the absence of magnetic field. What happens in strong electric fields? This question is investigated by analyzing time evolution and dynamics of the (spin-) Hall effect. After switching on a longitudinal electric field, a stationary Hall current is reached through damped oscillations. The Hall conductivity remains quantized as long as the electric field (E) is too weak to induce Landau-Zener transitions, but quantization breaks down for strong fields and the conductivity decreases as 1/sqrt{E}. These apply to the (spin-) Hall conductivity of graphene and the Hall and magnetoelectric response of topological insulators.

Comments: 4 pages, 3 figures

Journal: Phys. Rev. B 83, 073403 (2011)

DOI: 10.1103/PhysRevB.83.073403

Categories: cond-mat.mes-hall, cond-mat.stat-mech

Subjects: 73.20.-r, 72.80.Vp, 73.43.-f

Keywords: hall effect, topological insulators, single two-dimensional dirac cone, hall conductivity remains, mass gap produces

Tags: journal article

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