Quantum Dot Infrared Photodetectors: Photoresponse Enhancement Due to Potential Barriers

Vladimir Mitin; Andrei Antipov; Andrei Sergeev; Nizami Vagidov; David Eason; Gottfried Strasser

doi:10.1007/s11671-010-9767-y

Quantum Dot Infrared Photodetectors: Photoresponse Enhancement Due to Potential Barriers

Vladimir Mitin
, Andrei Antipov
, Andrei Sergeev
, Nizami Vagidov
, David Eason
, Gottfried Strasser

Department of Electrical Engineering

University at Buffalo

SUNY Buffalo

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

26 Scopus citations

Abstract

Potential barriers around quantum dots (QDs) play a key role in kinetics of photoelectrons. These barriers are always created, when electrons from dopants outside QDs fill the dots. Potential barriers suppress the capture processes of photoelectrons and increase the photoresponse. To directly investigate the effect of potential barriers on photoelectron kinetics, we fabricated several QD structures with different positions of dopants and various levels of doping. The potential barriers as a function of doping and dopant positions have been determined using nextnano³ software. We experimentally investigated the photoresponse to IR radiation as a function of the radiation frequency and voltage bias. We also measured the dark current in these QD structures. Our investigations show that the photoresponse increases ~30 times as the height of potential barriers changes from 30 to 130 meV.

Original language	English
Article number	21
Pages (from-to)	1-6
Number of pages	6
Journal	Nanoscale Research Letters
Volume	6
Issue number	1
DOIs	https://doi.org/10.1007/s11671-010-9767-y
State	Published - Jan 2011

Keywords

Capture processes
Doping
Infrared detectors
Photoresponse
Potential barriers
Quantum dots

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Cite this

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abstract = "Potential barriers around quantum dots (QDs) play a key role in kinetics of photoelectrons. These barriers are always created, when electrons from dopants outside QDs fill the dots. Potential barriers suppress the capture processes of photoelectrons and increase the photoresponse. To directly investigate the effect of potential barriers on photoelectron kinetics, we fabricated several QD structures with different positions of dopants and various levels of doping. The potential barriers as a function of doping and dopant positions have been determined using nextnano3 software. We experimentally investigated the photoresponse to IR radiation as a function of the radiation frequency and voltage bias. We also measured the dark current in these QD structures. Our investigations show that the photoresponse increases \textasciitilde{}30 times as the height of potential barriers changes from 30 to 130 meV.",

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T2 - Photoresponse Enhancement Due to Potential Barriers

AU - Mitin, Vladimir

AU - Antipov, Andrei

AU - Sergeev, Andrei

AU - Vagidov, Nizami

AU - Eason, David

AU - Strasser, Gottfried

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AB - Potential barriers around quantum dots (QDs) play a key role in kinetics of photoelectrons. These barriers are always created, when electrons from dopants outside QDs fill the dots. Potential barriers suppress the capture processes of photoelectrons and increase the photoresponse. To directly investigate the effect of potential barriers on photoelectron kinetics, we fabricated several QD structures with different positions of dopants and various levels of doping. The potential barriers as a function of doping and dopant positions have been determined using nextnano3 software. We experimentally investigated the photoresponse to IR radiation as a function of the radiation frequency and voltage bias. We also measured the dark current in these QD structures. Our investigations show that the photoresponse increases ~30 times as the height of potential barriers changes from 30 to 130 meV.

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Quantum Dot Infrared Photodetectors: Photoresponse Enhancement Due to Potential Barriers

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