GaSb-InAs-GaSb heterostructures studied under hydrostatic pressure

J. Beerens; G. Grégoris; J. C. Portal; E. E. Mendez; L. L. Chang; L. Esaki

doi:10.1103/PhysRevB.36.4742

GaSb-InAs-GaSb heterostructures studied under hydrostatic pressure

J. Beerens
, G. Grégoris
, J. C. Portal
, E. E. Mendez
, L. L. Chang
, L. Esaki

Physics and Astronomy

Stony Brook University

CNRS
Laboratoire Evolution et Diversité Biologique, CNRS, Université Paul Sabatier
IBM

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

29 Scopus citations

Abstract

We report transport measurements on GaSb-InAs-GaSb heterostructures under hydrostatic pressure (up to 1.2 GPa) and high magnetic field (up to 18 T) at low temperature. The pressure-induced decrease of the carrier concentrations is analyzed in terms of two distinct causes: an intrinsic charge transfer between the GaSb valence band and InAs conduction band, and an electron transfer to interface donor states. Using a simple self-consistent variational approach to model the structure and the experimental values of the concentration rates of decrease, we are able to estimate (1) the effective rate at which the band discontinuity at the interface decreases as we apply pressure (d/dP=67 meV/GPa) and (2) the density of interface states (nT4×1012 cm-2 eV-1). Nonparabolicity of the InAs conduction band has been taken into account in the calculations.

Original language	English
Pages (from-to)	4742-4747
Number of pages	6
Journal	Physical Review B
Volume	36
Issue number	9
DOIs	https://doi.org/10.1103/PhysRevB.36.4742
State	Published - 1987

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title = "GaSb-InAs-GaSb heterostructures studied under hydrostatic pressure",

abstract = "We report transport measurements on GaSb-InAs-GaSb heterostructures under hydrostatic pressure (up to 1.2 GPa) and high magnetic field (up to 18 T) at low temperature. The pressure-induced decrease of the carrier concentrations is analyzed in terms of two distinct causes: an intrinsic charge transfer between the GaSb valence band and InAs conduction band, and an electron transfer to interface donor states. Using a simple self-consistent variational approach to model the structure and the experimental values of the concentration rates of decrease, we are able to estimate (1) the effective rate at which the band discontinuity at the interface decreases as we apply pressure (d/dP=67 meV/GPa) and (2) the density of interface states (nT4×1012 cm-2 eV-1). Nonparabolicity of the InAs conduction band has been taken into account in the calculations.",

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doi = "10.1103/PhysRevB.36.4742",

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T1 - GaSb-InAs-GaSb heterostructures studied under hydrostatic pressure

AU - Beerens, J.

AU - Grégoris, G.

AU - Portal, J. C.

AU - Mendez, E. E.

AU - Chang, L. L.

AU - Esaki, L.

PY - 1987

Y1 - 1987

N2 - We report transport measurements on GaSb-InAs-GaSb heterostructures under hydrostatic pressure (up to 1.2 GPa) and high magnetic field (up to 18 T) at low temperature. The pressure-induced decrease of the carrier concentrations is analyzed in terms of two distinct causes: an intrinsic charge transfer between the GaSb valence band and InAs conduction band, and an electron transfer to interface donor states. Using a simple self-consistent variational approach to model the structure and the experimental values of the concentration rates of decrease, we are able to estimate (1) the effective rate at which the band discontinuity at the interface decreases as we apply pressure (d/dP=67 meV/GPa) and (2) the density of interface states (nT4×1012 cm-2 eV-1). Nonparabolicity of the InAs conduction band has been taken into account in the calculations.

AB - We report transport measurements on GaSb-InAs-GaSb heterostructures under hydrostatic pressure (up to 1.2 GPa) and high magnetic field (up to 18 T) at low temperature. The pressure-induced decrease of the carrier concentrations is analyzed in terms of two distinct causes: an intrinsic charge transfer between the GaSb valence band and InAs conduction band, and an electron transfer to interface donor states. Using a simple self-consistent variational approach to model the structure and the experimental values of the concentration rates of decrease, we are able to estimate (1) the effective rate at which the band discontinuity at the interface decreases as we apply pressure (d/dP=67 meV/GPa) and (2) the density of interface states (nT4×1012 cm-2 eV-1). Nonparabolicity of the InAs conduction band has been taken into account in the calculations.

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U2 - 10.1103/PhysRevB.36.4742

DO - 10.1103/PhysRevB.36.4742

M3 - Article

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VL - 36

SP - 4742

EP - 4747

JO - Physical Review B

JF - Physical Review B

IS - 9

ER -

GaSb-InAs-GaSb heterostructures studied under hydrostatic pressure

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