Electrical Behavior of MBE Grown Interfacial Misfit GaSb/GaAs Heterostructures With and Without Te-Doped Interfaces

Mohsin Aziz; Jorlandio Francisco Felix; Noor Al Saqri; Dler Jameel; Faisal Saleh Al Mashary; Hind Mohammed Albalawi; Haifaa Mohammed Abdullah Alghamdi; David Taylor; Mohamed Henini

doi:10.1109/TED.2015.2488904

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Electrical Behavior of MBE Grown Interfacial Misfit GaSb/GaAs Heterostructures With and Without Te-Doped Interfaces

Journal article

Peer reviewed

Electrical Behavior of MBE Grown Interfacial Misfit GaSb/GaAs Heterostructures With and Without Te-Doped Interfaces

Mohsin Aziz, Jorlandio Francisco Felix, Noor Al Saqri, Dler Jameel, Faisal Saleh Al Mashary, Hind Mohammed Albalawi, Haifaa Mohammed Abdullah Alghamdi, David Taylor and Mohamed Henini

IEEE transactions on electron devices, Vol.62(12), pp.3980-3986

12/2015

DOI: https://doi.org/10.1109/TED.2015.2488904

Abstract

Capacitance

Capacitance-frequency (C-F)

capacitance-voltage (C-V)

Capacitance-voltage characteristics

current-voltage (I-V)

Current-voltage characteristics

deep level transient spectroscopy (DLTS)

Electron traps

Gallium arsenide

Gallium compounds

Interface states

A detailed study of interface states in interfacial misfit (IMF) grown GaSb on GaAs substrates is presented. Two types of structures, namely, uncompensated and Te compensated, are investigated using current-voltage, capacitance-frequency, conductance-frequency, and deep level transient spectroscopy techniques. Our studies reveal that incorporation of Te at the interface (IMF) causes a degradation of the Te-compensated devices. A higher number of electrical active defects and higher value of interface states are detected in Te-compensated IMF GaSb/GaAs devices compared with as-grown IMF GaSb/GaAs devices.

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Title: Electrical Behavior of MBE Grown Interfacial Misfit GaSb/GaAs Heterostructures With and Without Te-Doped Interfaces
Creators - without role: Mohsin Aziz - University of Glasgow
Jorlandio Francisco Felix - Universidade de Brasília
Noor Al Saqri - University of Nottingham
Dler Jameel - University of Nottingham
Faisal Saleh Al Mashary - University of Nottingham
Hind Mohammed Albalawi - University of Nottingham
Haifaa Mohammed Abdullah Alghamdi - University of Nottingham
David Taylor - University of Nottingham
Mohamed Henini - University of Nottingham
Publication Details: IEEE transactions on electron devices, Vol.62(12), pp.3980-3986
Publisher: IEEE
Identifiers: 9927340408331
Academic Unit: Princess Nourah bint Abdulrahman University
Language: English
Resource Type: Journal article