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Thermally activated resonant tunnelling in GaAs/AlGaAs triple barrier tunnelling structures

Allford, Craig P., Legg, Robert E., O'Donnell, Rebecca A., Dawson, P., Missous, M. and Buckle, Philip D. 2015. Thermally activated resonant tunnelling in GaAs/AlGaAs triple barrier tunnelling structures. Presented at: UK Semiconductor Conference 2014 (UKSC 2014), Sheffield, UK,

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Abstract

A thermally activated resonant tunnelling feature has been observed in the current-voltage characteristics (I(V)) of triple barrier resonant tunnelling structures (TBRTS) due to alignment of the n=1 confined states in the two quantum wells (QWs) within the active region. With rising sample temperature, the tunnelling current of the resonant feature increases in magnitude, showing a small negative differential resistance region which is discernable even at 293K. This behaviour is unique to multiple barrier devices and cannot be observed in conventional double barrier resonant tunnelling structures. Symmetric TBRTS, of nominal well widths 67Å and asymmetric QW, with decreasing second well widths, nominally 64Å to 46Å, have been studied with temperature dependent resonant tunnelling behaviour observed in both symmetric and asymmetric designs. Activation energies have been extracted from Arrhenius plots of the magnitude of the thermally activated peak current for each device design. This activation energy decreases as the second well width is decreased due to alignment occurring at increasingly greater bias and as such at energies closer to the Fermi level in the emitter region of the devices. Experimentally determined activation energies are in good agreement with theoretical values obtained by modelling the device I(V) characteristics

Item Type: Conference or Workshop Item (Paper)
Status: Published
Schools: Physics and Astronomy
Subjects: Q Science > QC Physics
Additional Information: Expanded abstract as published in conference proceedings
Funders: EPSRC
Date of First Compliant Deposit: 7 April 2020
Last Modified: 07 Apr 2020 13:19
URI: http://orca.cf.ac.uk/id/eprint/130850

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