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Addressing shape and extent of Weyl cones in TaAs by Landau level spectroscopy

David Santos‐Cottin, J. Wyzula, F. Le Mardelé, Iris Crassee, Edoardo Martino, Jiřı́ Novák, G. Eguchi, Zoran Rukelj, Mario Novak, M. Orlita, Ana Akrap

2022Physical review. B./Physical review. B11 citationsDOIOpen Access PDF

Abstract

TaAs is a prime example of a topological semimetal with two types of Weyl nodes, ${\mathrm{W}}_{1}$ and ${\mathrm{W}}_{2}$, whose bulk signatures have proven elusive. We apply Landau level spectroscopy to crystals with multiple facets and identify---among other low-energy excitations between parabolic bands---the response of a cone extending over a wide energy range. Comparison with density functional theory studies allows us to associate this conical band with nearly isotropic ${\mathrm{W}}_{2}$ nodes. In contrast, ${\mathrm{W}}_{1}$ cones, which are more anisotropic and less extended in energy, appear to be buried too deep beneath the Fermi level. They cannot be accessed directly. Instead, the excitations in their vicinity give rise to an optical response typical of a narrow-gap semiconductor rather than a Weyl semimetal.

Topics & Concepts

SemimetalWeyl semimetalCondensed matter physicsPhysicsIsotropyAnisotropyLandau quantizationConical surfaceSpectroscopyFermi levelBand gapFermi energyArsenideQuantum mechanicsGallium arsenideGeometryElectronMathematicsTopological Materials and PhenomenaGraphene research and applications2D Materials and Applications
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