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Optical properties of InGaN-based red multiple quantum wells

Xin Hou, Shaosheng Fan, Huan Xu, Daisuke Iida, Yuejun Liu, Yang Mei, Guoen Weng, Shaoqiang Chen, Baoping Zhang, Kazuhiro Ohkawa

2022Applied Physics Letters19 citationsDOI

Abstract

In this work, we present the characterization of red InGaN/GaN multiple-quantum-well (MQW) light-emitting diode structures. The optical properties of two MQW structures with different n-GaN underlayer thicknesses (4 and 8 μm) are studied and compared. The results of photoluminescence studies show that a thicker n-GaN layer is beneficial for obtaining higher In content for red MQWs. However, the sample with a thicker n-GaN layer has a poorer internal quantum efficiency, a larger full width at half maximum, and a shorter nonradiative recombination time, implying that there are stronger In-content fluctuations and more defects. Furthermore, red MQWs with higher In content are shown to exhibit more deep localized states. Our findings imply that in order to achieve high-efficiency InGaN MQWs for red emission, enhancing the uniformity of In-content distribution in the active region and decreasing nonradiative recombination centers are critical challenges.

Topics & Concepts

PhotoluminescenceMaterials scienceOptoelectronicsQuantum wellLight-emitting diodeQuantum efficiencyRecombinationLayer (electronics)DiodeWide-bandgap semiconductorQuantumOpticsNanotechnologyPhysicsChemistryLaserQuantum mechanicsBiochemistryGeneGaN-based semiconductor devices and materialsGa2O3 and related materialsMetal and Thin Film Mechanics
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