Interplay Effect of Temperature and Excitation Intensity on the Photoluminescence Characteristics of InGaAs/GaAs Surface Quantum Dots

Qing Yuan; Baolai Liang; Chuan Zhou; Ying Wang; Yingnan Guo; Shufang Wang; Guangsheng Fu; Yuriy I. Mazur; Morgan E. Ware; Gregory J. Salamo

doi:10.1186/s11671-018-2792-y

Nanoscale Research Letters (Nov 2018)

Interplay Effect of Temperature and Excitation Intensity on the Photoluminescence Characteristics of InGaAs/GaAs Surface Quantum Dots

Qing Yuan,
Baolai Liang,
Chuan Zhou,
Ying Wang,
Yingnan Guo,
Shufang Wang,
Guangsheng Fu,
Yuriy I. Mazur,
Morgan E. Ware,
Gregory J. Salamo

Affiliations

Qing Yuan: Hebei Key Laboratory of Optic-electronic Information and Materials, College of Physics Science & Technology, Hebei University
Baolai Liang: Hebei Key Laboratory of Optic-electronic Information and Materials, College of Physics Science & Technology, Hebei University
Chuan Zhou: Hebei Key Laboratory of Optic-electronic Information and Materials, College of Physics Science & Technology, Hebei University
Ying Wang: Hebei Key Laboratory of Optic-electronic Information and Materials, College of Physics Science & Technology, Hebei University
Yingnan Guo: Hebei Key Laboratory of Optic-electronic Information and Materials, College of Physics Science & Technology, Hebei University
Shufang Wang: Hebei Key Laboratory of Optic-electronic Information and Materials, College of Physics Science & Technology, Hebei University
Guangsheng Fu: Hebei Key Laboratory of Optic-electronic Information and Materials, College of Physics Science & Technology, Hebei University
Yuriy I. Mazur: Institute for Nanoscience and Engineering, University of Arkansas
Morgan E. Ware: Institute for Nanoscience and Engineering, University of Arkansas
Gregory J. Salamo: Institute for Nanoscience and Engineering, University of Arkansas

DOI: https://doi.org/10.1186/s11671-018-2792-y
Journal volume & issue: Vol. 13, no. 1
pp. 1 – 9

Abstract

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Abstract We investigate the optical properties of InGaAs surface quantum dots (SQDs) in a composite nanostructure with a layer of similarly grown buried quantum dots (BQDs) separated by a thick GaAs spacer, but with varied areal densities of SQDs controlled by using different growth temperatures. Such SQDs behave differently from the BQDs, depending on the surface morphology. Dedicated photoluminescence (PL) measurements for the SQDs grown at 505 °C reveal that the SQD emission follows different relaxation channels while exhibiting abnormal thermal quenching. The PL intensity ratio between the SQDs and BQDs demonstrates interplay between excitation intensity and temperature. These observations suggest a strong dependence on the surface for carrier dynamics of the SQDs, depending on the temperature and excitation intensity.

Published in Nanoscale Research Letters

ISSN: 1931-7573 (Print); 1556-276X (Online)
Publisher: SpringerOpen
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.springer.com/journal/11671

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