期刊
THIN SOLID FILMS
卷 570, 期 -, 页码 490-495出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.tsf.2014.04.032
关键词
Antimony (Sb); Strain-reducing layer (SRL); InGaAsSb; Quantum dots (QDs)
The superior operation characteristics of quantum dot (QD) lasers with excited-state (ES) emission, namely high saturation gain and modulation bandwidth, are advantageous for applying lasers in optical-fiber communication. The InAs QDs in this study were covered with an InGaAsSb capping layer to reduce In-Ga intermixing, thereby increasing the QD density and dot-size uniformity. However, the extension of ES emission to 1310 nm in InAs/GaAs QD heterostructures is difficult because of the internal compressive strain and In-Ga intermixing. This study used an InGaAsSb strain-reducing layer (SRL) to cap InAs QDs, elongating the ground-state and excited-state (ES) emission wavelengths to 1426 and 1310 nm, respectively. The optical properties of the InAs/(In) GaAsSb QD structures were measured using power-dependent photoluminescence and time-resolved photoluminescence measurements. The energy band alignment of the InAs QD heterostructure changed from a type-II to Quasi-type I confinement (transition state from type-II to type-I) when the GaAsSb SRL was replaced with an InGaAsSb layer under a constant Sb flux during the epitaxy process. Therefore, an enhanced radiative recombination efficiency was observed in the InAs/InGaAsSb QDs at the long first ES emission at 1310 nm. (C) 2014 Elsevier B.V. All rights reserved.
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