Properties of two-dimensional electron gas containing self-organized quantum antidots

Yu Vasilyev; S. Suchalkin; M. Zundel; D. Heisenberg; K. Eberl; K. Von Klitzing

doi:10.1063/1.125195

Properties of two-dimensional electron gas containing self-organized quantum antidots

Yu Vasilyev
, S. Suchalkin
, M. Zundel
, D. Heisenberg
, K. Eberl
, K. Von Klitzing

Electrical Engineering

Stony Brook University

Ioffe Physical-Technical Institute
Max Planck Institute for Solid State Research

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

5 Scopus citations

Abstract

A nonuniform two-dimensional electron gas in a heterojunction with inserted self-organized electrically inactive dots (acting as antidots) has been fabricated by molecular-beam epitaxy of AlGaAs/AlInAs/GaAs layer sequences. Transport measurements give the ratio of the transport mobility to the quantum mobility less than four, which suggests that the dominant scattering at low magnetic fields is the short-range scattering from the lateral potential of the antidots. Far-infrared cyclotron resonance (CR) spectra show, an absorption mode as narrow as 0.5 cm^-1 at high magnetic fields associated with the high-mobility electron gas formed between the antidot islands and confined in the lateral directions. The confinement energy of 14 cm^-1 is derived from the CR spectra.

Original language	English
Pages (from-to)	2942-2944
Number of pages	3
Journal	Applied Physics Letters
Volume	75
Issue number	19
DOIs	https://doi.org/10.1063/1.125195
State	Published - Nov 8 1999

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title = "Properties of two-dimensional electron gas containing self-organized quantum antidots",

abstract = "A nonuniform two-dimensional electron gas in a heterojunction with inserted self-organized electrically inactive dots (acting as antidots) has been fabricated by molecular-beam epitaxy of AlGaAs/AlInAs/GaAs layer sequences. Transport measurements give the ratio of the transport mobility to the quantum mobility less than four, which suggests that the dominant scattering at low magnetic fields is the short-range scattering from the lateral potential of the antidots. Far-infrared cyclotron resonance (CR) spectra show, an absorption mode as narrow as 0.5 cm-1 at high magnetic fields associated with the high-mobility electron gas formed between the antidot islands and confined in the lateral directions. The confinement energy of 14 cm-1 is derived from the CR spectra.",

author = "Yu Vasilyev and S. Suchalkin and M. Zundel and D. Heisenberg and K. Eberl and \{Von Klitzing\}, K.",

year = "1999",

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doi = "10.1063/1.125195",

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T1 - Properties of two-dimensional electron gas containing self-organized quantum antidots

AU - Vasilyev, Yu

AU - Suchalkin, S.

AU - Zundel, M.

AU - Heisenberg, D.

AU - Eberl, K.

AU - Von Klitzing, K.

PY - 1999/11/8

Y1 - 1999/11/8

N2 - A nonuniform two-dimensional electron gas in a heterojunction with inserted self-organized electrically inactive dots (acting as antidots) has been fabricated by molecular-beam epitaxy of AlGaAs/AlInAs/GaAs layer sequences. Transport measurements give the ratio of the transport mobility to the quantum mobility less than four, which suggests that the dominant scattering at low magnetic fields is the short-range scattering from the lateral potential of the antidots. Far-infrared cyclotron resonance (CR) spectra show, an absorption mode as narrow as 0.5 cm-1 at high magnetic fields associated with the high-mobility electron gas formed between the antidot islands and confined in the lateral directions. The confinement energy of 14 cm-1 is derived from the CR spectra.

AB - A nonuniform two-dimensional electron gas in a heterojunction with inserted self-organized electrically inactive dots (acting as antidots) has been fabricated by molecular-beam epitaxy of AlGaAs/AlInAs/GaAs layer sequences. Transport measurements give the ratio of the transport mobility to the quantum mobility less than four, which suggests that the dominant scattering at low magnetic fields is the short-range scattering from the lateral potential of the antidots. Far-infrared cyclotron resonance (CR) spectra show, an absorption mode as narrow as 0.5 cm-1 at high magnetic fields associated with the high-mobility electron gas formed between the antidot islands and confined in the lateral directions. The confinement energy of 14 cm-1 is derived from the CR spectra.

UR - https://www.scopus.com/pages/publications/0041577104

U2 - 10.1063/1.125195

DO - 10.1063/1.125195

M3 - Article

SN - 0003-6951

VL - 75

SP - 2942

EP - 2944

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 19

ER -

Properties of two-dimensional electron gas containing self-organized quantum antidots

Abstract

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