Determinação da corrente de escuro em fotodetectores de radiação infravermelha baseados em poços quânticos (QWIPs)

Claro, Marcel Santos

doi:10.11606/D.43.2013.tde-24092014-145628

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Master's Dissertation

DOI

https://doi.org/10.11606/D.43.2013.tde-24092014-145628

Document

Master's Dissertation

Author

Claro, Marcel Santos (Catálogo USP)

Full name

Marcel Santos Claro

Institute/School/College

Instituto de Física

Knowledge Area

Physics

Date of Defense

2013-03-12

Published

São Paulo, 2013

Supervisor

Quivy, Alain Andre (Catálogo USP)

Committee

Quivy, Alain Andre (President)
Hernandez, Felix Guilhermo Gonzalez
Vieira, Gustavo Soares

Title in Portuguese

Determinação da corrente de escuro em fotodetectores de radiação infravermelha baseados em poços quânticos (QWIPs)

Keywords in Portuguese

corrente de escuro,fotodetectores,infravermelho,poço quântico

Abstract in Portuguese

Neste trabalho, foram estudados os modelos mais comuns para a descrição da corrente de escuro em fotodetectores baseados em poços quânticos (QWIPs). Foram também realizadas as alterações necessárias para tornar estes modelos independentes de ajustes experimentais, possibilitando assim a otimização dos dispositivos antes de sua fabricação. Estas simulações foram comparadas com os dados experimentais de amostras desenvolvidas em nosso laboratório para avaliar a qualidade do sistema de aquisição de curvas I x V recém-instalado, bem como dos dispositivos desenvolvidos. Analisando os resultados experimentais e teóricos, foi possível ainda identificar os diferentes regimes de transporte em cada temperatura e tensão aplicada.

Title in English

Dark current studies on Quantum Well Infrared Photodetectors (QWIPs)

Keywords in English

Dark Current
Infrared
Photodetector
Quantum Well

Abstract in English

In this work, we analyzed the most common models of the literature aiming to describe the dark current in quantum well based photodetectors (QWIPs), making the necessary changes to make them independent of experimental data, and enabling thus the optimization of the devices before they are fabricated. These simulations were compared to experimental data of sample grown in our laboratory to evaluate the quality of the I-V curve acquisition system recently installed, as well as the performance of the new devices being produced. By analyzing the experimental and theoretical results, it was still possible to identify the different transport regimes at each temperature and applied voltage.

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Publishing Date

2014-12-04

Derived works

WARNING: The material described below relates to works resulting from this thesis or dissertation. The contents of these works are the author's responsibility.

CLARO, M. S., et al. Experimental and theoretical studies of dark current in quantum-well infrared photodetectors. In Workshop on Infrared Technology, Rio de Janeiro, 2011. Anais da conferência., 2011. Resumo.
FERNANDES, F. M., et al. Low-temperature electronic transport mechanisms deduced from noise measurements in quantum-well infrared photodetectors. In International Conference os Superlattices, Nanostructures and Nanodevices (ICSNN 2012), Dresden, 2012. Anais da conferência., 2012. Abstract.
MAIA, A. D. B., et al. Influence of In segregation and intermixing on the optical and electronic properties of InAs/GaAs quantum dots and photodetectors. In International Conference os Superlattices, Nanostructures and Nanodevices (ICSNN 2012), Dresden, 2012. Anais da conferência., 2012. Abstract.