Chemical and electrical characterization of the HfO2/InAlAs interface

B. Brennan; R. V. Galatage; K. Thomas; E. Pelucchi; P. K. Hurley; J. Kim; C. L. Hinkle; E. M. Vogel; R. M. Wallace

doi:10.1063/1.4821021

Chemical and electrical characterization of the HfO₂/InAlAs interface

B. Brennan
, R. V. Galatage
, K. Thomas
, E. Pelucchi
, P. K. Hurley
, J. Kim
, C. L. Hinkle
, E. M. Vogel
, R. M. Wallace

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

Abstract

InAlAs has the potential to be used as a barrier layer in buried channel quantum well field effect transistor devices due to favorable lattice-matching and carrier confinement properties with InGaAs. Field effect device structures of this nature may also require a high-k oxide deposited on the InAlAs surface to reduce leakage current. This study investigates the impact of surface preparations and atomic layer deposition of HfO₂ on these surfaces using x-ray photoelectron spectroscopy to analyse the chemical interactions taking place, as well as the electrical performance of associated capacitor devices. A large concentration of As related surface features is observed at the InAlAs surface, and is attributed to a large D_it response in electrical measurements.

Original language	English
Article number	104103
Journal	Journal of Applied Physics
Volume	114
Issue number	10
DOIs	https://doi.org/10.1063/1.4821021
Publication status	Published - 14 Sep 2013

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10.1063/1.4821021

https://hdl.handle.net/10468/4724Licence: CC BY-NC-ND

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title = "Chemical and electrical characterization of the HfO2/InAlAs interface",

abstract = "InAlAs has the potential to be used as a barrier layer in buried channel quantum well field effect transistor devices due to favorable lattice-matching and carrier confinement properties with InGaAs. Field effect device structures of this nature may also require a high-k oxide deposited on the InAlAs surface to reduce leakage current. This study investigates the impact of surface preparations and atomic layer deposition of HfO2 on these surfaces using x-ray photoelectron spectroscopy to analyse the chemical interactions taking place, as well as the electrical performance of associated capacitor devices. A large concentration of As related surface features is observed at the InAlAs surface, and is attributed to a large Dit response in electrical measurements.",

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AU - Brennan, B.

AU - Galatage, R. V.

AU - Thomas, K.

AU - Pelucchi, E.

AU - Hurley, P. K.

AU - Kim, J.

AU - Hinkle, C. L.

AU - Vogel, E. M.

AU - Wallace, R. M.

PY - 2013/9/14

Y1 - 2013/9/14

N2 - InAlAs has the potential to be used as a barrier layer in buried channel quantum well field effect transistor devices due to favorable lattice-matching and carrier confinement properties with InGaAs. Field effect device structures of this nature may also require a high-k oxide deposited on the InAlAs surface to reduce leakage current. This study investigates the impact of surface preparations and atomic layer deposition of HfO2 on these surfaces using x-ray photoelectron spectroscopy to analyse the chemical interactions taking place, as well as the electrical performance of associated capacitor devices. A large concentration of As related surface features is observed at the InAlAs surface, and is attributed to a large Dit response in electrical measurements.

AB - InAlAs has the potential to be used as a barrier layer in buried channel quantum well field effect transistor devices due to favorable lattice-matching and carrier confinement properties with InGaAs. Field effect device structures of this nature may also require a high-k oxide deposited on the InAlAs surface to reduce leakage current. This study investigates the impact of surface preparations and atomic layer deposition of HfO2 on these surfaces using x-ray photoelectron spectroscopy to analyse the chemical interactions taking place, as well as the electrical performance of associated capacitor devices. A large concentration of As related surface features is observed at the InAlAs surface, and is attributed to a large Dit response in electrical measurements.

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DO - 10.1063/1.4821021

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VL - 114

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 10

M1 - 104103

ER -

Chemical and electrical characterization of the HfO₂/InAlAs interface

Abstract

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