Magnetic freeze-out and anomalous Hall effect in ZrTe\(_5\)

Magnetic freeze-out and anomalous Hall effect in ZrTe\(_5\)

The ultra-quantum limit is achieved when a magnetic field confines an electron gas in its lowest spin-polarised Landau level. Here we show that in this limit, electron doped ZrTe\(_5\) shows a metal-insulator transition followed by a sign change of the Hall and Seebeck effects at low temperature. We...

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Veröffentlicht in:arXiv.org 2022-05
Hauptverfasser: Gourgout, Adrien, Leroux, Maxime, Jean-Loup Smirr, Massoudzadegan, Maxime, Ricardo P S M Lobo, Vignolles, David, Proust, Cyril, Berger, Helmuth, Li, Qiang, Gu, Genga, Homes, Christopher C, Akrap, Ana, Fauqué, Benoît
Format: Artikel
Sprache:eng
Schlagworte:
Carrier density
Charge density
Current carriers
Electron gas
Electron spin
Hall effect
Insulators
Low temperature
Metal-insulator transition
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Zusammenfassung:The ultra-quantum limit is achieved when a magnetic field confines an electron gas in its lowest spin-polarised Landau level. Here we show that in this limit, electron doped ZrTe\(_5\) shows a metal-insulator transition followed by a sign change of the Hall and Seebeck effects at low temperature. We attribute this transition to a magnetic freeze-out of charge carriers on the ionised impurities. The reduction of the charge carrier density gives way to an anomalous Hall response of the spin-polarised electrons. This behaviour, at odds with the usual magnetic freeze-out scenario, occurs in this Dirac metal because of its tiny Fermi energy, extremely narrow band gap and a large \(g\)-factor. We discuss the different possible sources (intrinsic or extrinsic) for this anomalous Hall contribution.
ISSN:2331-8422