Magnetothermoelectric properties of Bi2Se3

Benoît Fauqué; Nicholas P. Butch; Paul Syers; Johnpierre Paglione; Steffen Wiedmann; Aurélie Collaudin; Benjamin Grena; Uli Zeitler; Kamran Behnia

doi:10.1103/PhysRevB.87.035133

Magnetothermoelectric properties of Bi₂Se₃

Benoît Fauqué
, Nicholas P. Butch
, Paul Syers
, Johnpierre Paglione
, Steffen Wiedmann
, Aurélie Collaudin
, Benjamin Grena
, Uli Zeitler
, Kamran Behnia

PSL Research University
University of Maryland
Radboud University

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We present a study of entropy transport in Bi₂Se₃ at low temperatures and high magnetic fields. In the zero-temperature limit, the magnitude of the Seebeck coefficient quantitatively tracks the Fermi temperature of the three-dimensional Fermi surface at the Γ point as the carrier concentration changes by two orders of magnitude (1017 to 1019 cm^-3). In high magnetic fields, the Nernst response displays giant quantum oscillations indicating that this feature is not exclusive to compensated semimetals. A comprehensive analysis of the Landau level spectrum firmly establishes a large g factor in this material and a substantial decrease of the Fermi energy with increasing magnetic field across the quantum limit. Thus, the presence of bulk carriers significantly affects the spectrum of the intensively debated surface states in Bi₂Se₃ and related materials.

langue originale	Anglais
Numéro d'article	035133
journal	Physical Review B - Condensed Matter and Materials Physics
Volume	87
Numéro de publication	3
Les DOIs	https://doi.org/10.1103/PhysRevB.87.035133
état	Publié - 25 janv. 2013
Modification externe	Oui

Accès au document

10.1103/PhysRevB.87.035133

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Contient cette citation

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title = "Magnetothermoelectric properties of Bi2Se3",

abstract = "We present a study of entropy transport in Bi2Se3 at low temperatures and high magnetic fields. In the zero-temperature limit, the magnitude of the Seebeck coefficient quantitatively tracks the Fermi temperature of the three-dimensional Fermi surface at the Γ point as the carrier concentration changes by two orders of magnitude (1017 to 1019 cm-3). In high magnetic fields, the Nernst response displays giant quantum oscillations indicating that this feature is not exclusive to compensated semimetals. A comprehensive analysis of the Landau level spectrum firmly establishes a large g factor in this material and a substantial decrease of the Fermi energy with increasing magnetic field across the quantum limit. Thus, the presence of bulk carriers significantly affects the spectrum of the intensively debated surface states in Bi2Se3 and related materials.",

author = "Beno{\^i}t Fauqu{\'e} and Butch, \{Nicholas P.\} and Paul Syers and Johnpierre Paglione and Steffen Wiedmann and Aur{\'e}lie Collaudin and Benjamin Grena and Uli Zeitler and Kamran Behnia",

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TY - JOUR

T1 - Magnetothermoelectric properties of Bi2Se3

AU - Fauqué, Benoît

AU - Butch, Nicholas P.

AU - Syers, Paul

AU - Paglione, Johnpierre

AU - Wiedmann, Steffen

AU - Collaudin, Aurélie

AU - Grena, Benjamin

AU - Zeitler, Uli

AU - Behnia, Kamran

PY - 2013/1/25

Y1 - 2013/1/25

N2 - We present a study of entropy transport in Bi2Se3 at low temperatures and high magnetic fields. In the zero-temperature limit, the magnitude of the Seebeck coefficient quantitatively tracks the Fermi temperature of the three-dimensional Fermi surface at the Γ point as the carrier concentration changes by two orders of magnitude (1017 to 1019 cm-3). In high magnetic fields, the Nernst response displays giant quantum oscillations indicating that this feature is not exclusive to compensated semimetals. A comprehensive analysis of the Landau level spectrum firmly establishes a large g factor in this material and a substantial decrease of the Fermi energy with increasing magnetic field across the quantum limit. Thus, the presence of bulk carriers significantly affects the spectrum of the intensively debated surface states in Bi2Se3 and related materials.

AB - We present a study of entropy transport in Bi2Se3 at low temperatures and high magnetic fields. In the zero-temperature limit, the magnitude of the Seebeck coefficient quantitatively tracks the Fermi temperature of the three-dimensional Fermi surface at the Γ point as the carrier concentration changes by two orders of magnitude (1017 to 1019 cm-3). In high magnetic fields, the Nernst response displays giant quantum oscillations indicating that this feature is not exclusive to compensated semimetals. A comprehensive analysis of the Landau level spectrum firmly establishes a large g factor in this material and a substantial decrease of the Fermi energy with increasing magnetic field across the quantum limit. Thus, the presence of bulk carriers significantly affects the spectrum of the intensively debated surface states in Bi2Se3 and related materials.

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