Transport anomalies across the quantum limit in semimetallic Bi 0.96Sb0.04

Aritra Banerjee; Benoît Fauqué; Koichi Izawa; Atsushi Miyake; Ilya Sheikin; Jacques Flouquet; Bertrand Lenoir; Kamran Behnia

doi:10.1103/PhysRevB.78.161103

Transport anomalies across the quantum limit in semimetallic Bi _0.96Sb_0.04

Aritra Banerjee, Benoît Fauqué, Koichi Izawa, Atsushi Miyake, Ilya Sheikin, Jacques Flouquet, Bertrand Lenoir, Kamran Behnia

Research output: Contribution to journal › Article › peer-review

Abstract

We report on a study of electronic transport in semimetallic Bi _0.96Sb_0.04. At zero field, the system is a very dilute Fermi liquid displaying a T² resistivity with an enhanced prefactor. Quantum oscillations in resistivity as well as in Hall, Nernst, and Seebeck responses of the system are detectable and their period quantifies the shrinking of the Fermi surface with antimony doping. For a field along the trigonal axis, the quantum limit was found to occur at a field as low as 3 T. An ultraquantum anomaly at twice this field was detected in both charge transport and Nernst response. Its origin appears to lie beyond the one-particle picture and linked to unidentified many-body effects.

Original language	English
Article number	161103
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	78
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevB.78.161103
Publication status	Published - 31 Oct 2008
Externally published	Yes

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10.1103/PhysRevB.78.161103

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title = "Transport anomalies across the quantum limit in semimetallic Bi 0.96Sb0.04 ",

abstract = "We report on a study of electronic transport in semimetallic Bi 0.96Sb0.04. At zero field, the system is a very dilute Fermi liquid displaying a T2 resistivity with an enhanced prefactor. Quantum oscillations in resistivity as well as in Hall, Nernst, and Seebeck responses of the system are detectable and their period quantifies the shrinking of the Fermi surface with antimony doping. For a field along the trigonal axis, the quantum limit was found to occur at a field as low as 3 T. An ultraquantum anomaly at twice this field was detected in both charge transport and Nernst response. Its origin appears to lie beyond the one-particle picture and linked to unidentified many-body effects.",

author = "Aritra Banerjee and Beno{\^i}t Fauqu{\'e} and Koichi Izawa and Atsushi Miyake and Ilya Sheikin and Jacques Flouquet and Bertrand Lenoir and Kamran Behnia",

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AU - Banerjee, Aritra

AU - Fauqué, Benoît

AU - Izawa, Koichi

AU - Miyake, Atsushi

AU - Sheikin, Ilya

AU - Flouquet, Jacques

AU - Lenoir, Bertrand

AU - Behnia, Kamran

PY - 2008/10/31

Y1 - 2008/10/31

N2 - We report on a study of electronic transport in semimetallic Bi 0.96Sb0.04. At zero field, the system is a very dilute Fermi liquid displaying a T2 resistivity with an enhanced prefactor. Quantum oscillations in resistivity as well as in Hall, Nernst, and Seebeck responses of the system are detectable and their period quantifies the shrinking of the Fermi surface with antimony doping. For a field along the trigonal axis, the quantum limit was found to occur at a field as low as 3 T. An ultraquantum anomaly at twice this field was detected in both charge transport and Nernst response. Its origin appears to lie beyond the one-particle picture and linked to unidentified many-body effects.

AB - We report on a study of electronic transport in semimetallic Bi 0.96Sb0.04. At zero field, the system is a very dilute Fermi liquid displaying a T2 resistivity with an enhanced prefactor. Quantum oscillations in resistivity as well as in Hall, Nernst, and Seebeck responses of the system are detectable and their period quantifies the shrinking of the Fermi surface with antimony doping. For a field along the trigonal axis, the quantum limit was found to occur at a field as low as 3 T. An ultraquantum anomaly at twice this field was detected in both charge transport and Nernst response. Its origin appears to lie beyond the one-particle picture and linked to unidentified many-body effects.

U2 - 10.1103/PhysRevB.78.161103

DO - 10.1103/PhysRevB.78.161103

M3 - Article

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SN - 1098-0121

VL - 78

JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 16

M1 - 161103

ER -

Transport anomalies across the quantum limit in semimetallic Bi 0.96Sb0.04

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Transport anomalies across the quantum limit in semimetallic Bi _0.96Sb_0.04