Engineering a pure Dirac regime in ZrTe$_5

Engineering a pure Dirac regime in ZrTe$_5

Real-world topological semimetals typically exhibit Dirac and Weyl nodes that coexist with trivial Fermi pockets. This tends to mask the physics of the relativistic quasiparticles. Using the example of ZrTe _5 5 , we show that strain provides a powerful tool for in-situ tuning of the band structure...

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Veröffentlicht in:SciPost physics 2023-04, Vol.14 (4), p.066, Article 066
Hauptverfasser: Facio, Jorge I., Nocerino, Elisabetta, Fulga, Ion Cosma, Wawrzynczak, Rafal, Brown, Joanna, Gu, Genda, Li, Qiang, Mansson, Martin, Sassa, Yasmine, Ivashko, Oleh, von Zimmermann, Martin, Mende, Felix, Gooth, Johannes, Galeski, Stanislaw, van den Brink, Jeroen, Meng, Tobias
Format: Artikel
Sprache:eng
Schlagworte:
CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY
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Zusammenfassung:Real-world topological semimetals typically exhibit Dirac and Weyl nodes that coexist with trivial Fermi pockets. This tends to mask the physics of the relativistic quasiparticles. Using the example of ZrTe _5 5 , we show that strain provides a powerful tool for in-situ tuning of the band structure such that all trivial pockets are pushed far away from the Fermi energy, but only for a certain range of Van der Waals gaps. Our results naturally reconcile contradicting reports on the presence or absence of additional pockets in ZrTe _5 5 , and provide a clear map of where to find a pure three-dimensional Dirac semimetallic phase in the structural parameter space of the material.
ISSN:2542-4653
2542-4653
DOI:10.21468/SciPostPhys.14.4.066