Dielectric screening of surface states in a topological insulator

Hexagonal warping provides an anisotropy to the dispersion curves of the helical Dirac fermions that exist at the surface of a topological insulator. A subdominant quadratic in the momentum term leads to an asymmetry between conduction and valence band. A gap can also be opened through magnetic dopi...

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Veröffentlicht in:	Physical review. B, Condensed matter and materials physics Condensed matter and materials physics, 2014-01, Vol.89 (3), Article 035419
Hauptverfasser:	LeBlanc, J. P. F., Carbotte, J. P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Anisotropy Condensed matter Conduction band Dispersions Doping Insulators Plasmons Slopes Topology
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container_title	Physical review. B, Condensed matter and materials physics
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creator	LeBlanc, J. P. F. Carbotte, J. P.
description	Hexagonal warping provides an anisotropy to the dispersion curves of the helical Dirac fermions that exist at the surface of a topological insulator. A subdominant quadratic in the momentum term leads to an asymmetry between conduction and valence band. A gap can also be opened through magnetic doping. We show how these various modifications to the Dirac spectrum change the polarization function of the surface states and employ our results to discuss their effect on the plasmons. In the long wavelength limit, the plasmon dispersion retains its square-root dependence on its momentum, q, but its slope is modified and it can acquire a weak dependence on the direction of q. Further, we find the existence of several plasmon branches, one of which is damped for all values of q, and extract the plasmon scattering rate for a representative case.
doi_str_mv	10.1103/PhysRevB.89.035419
format	Article
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P. F. ; Carbotte, J. P.</creator><creatorcontrib>LeBlanc, J. P. F. ; Carbotte, J. P.</creatorcontrib><description>Hexagonal warping provides an anisotropy to the dispersion curves of the helical Dirac fermions that exist at the surface of a topological insulator. A subdominant quadratic in the momentum term leads to an asymmetry between conduction and valence band. A gap can also be opened through magnetic doping. We show how these various modifications to the Dirac spectrum change the polarization function of the surface states and employ our results to discuss their effect on the plasmons. In the long wavelength limit, the plasmon dispersion retains its square-root dependence on its momentum, q, but its slope is modified and it can acquire a weak dependence on the direction of q. 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B, Condensed matter and materials physics</title><description>Hexagonal warping provides an anisotropy to the dispersion curves of the helical Dirac fermions that exist at the surface of a topological insulator. A subdominant quadratic in the momentum term leads to an asymmetry between conduction and valence band. A gap can also be opened through magnetic doping. We show how these various modifications to the Dirac spectrum change the polarization function of the surface states and employ our results to discuss their effect on the plasmons. In the long wavelength limit, the plasmon dispersion retains its square-root dependence on its momentum, q, but its slope is modified and it can acquire a weak dependence on the direction of q. 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Further, we find the existence of several plasmon branches, one of which is damped for all values of q, and extract the plasmon scattering rate for a representative case.</abstract><doi>10.1103/PhysRevB.89.035419</doi></addata></record>
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source	American Physical Society Journals
subjects	Anisotropy Condensed matter Conduction band Dispersions Doping Insulators Plasmons Slopes Topology
title	Dielectric screening of surface states in a topological insulator
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