Black hole mirages: electron lensing and Berry curvature effects in inhomogeneously tilted Weyl semimetals
ORAL
Abstract
In this talk, I present our recent study about electronic transport in Weyl semimetals with spatially varying nodal tilt profiles. We discuss two complementary approaches that characterise the electron flow: solutions of the semi-classical equations of motion, in analogy to those encountered in black hole spacetimes, and large-scale microscopic simulations of a scattering region surrounded by semi-infinite leads. We show that the two approaches lead to equivalent results when the wave packet is sufficiently far from the center of the tilt. The two methods are arguably a powerful toolset in the pursuit of tilt-tronic devices such as e.g. electronic lenses.
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Publication: Suraj Hegde, Andreas Haller, Chen Xu, Christophe De Beule, Thomas L. Schmidt and Tobias Meng (2022). Black hole mirages: electron lensing and Berry curvature effects in inhomogeneously tilted Weyl semimetals. Manuscript in preparation.
Presenters
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Andreas O Haller
University of Luxembourg
Authors
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Andreas O Haller
University of Luxembourg
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Suraj Hedge
University of Dresden
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Chen Xu
University of Dresden
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Thomas L Schmidt
University of Luxembourg, University of Luxembourg Limpertsberg
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Tobias Meng
University of Dresden, TU Dresden
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Christophe De Beule
University of Luxembourg, University of Pennsylvania