Near-Infrared InGaN Alloys Grown on High-In-Composition InGaN Buffer Layer


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Near-infrared InGaN alloys were grown on a strain-relaxed high-In-composition InGaN buffer layer based on GaN/sapphire substrate by plasma assisted molecular beam epitaxy. The In compositions of the InGaN light emitting layer and buffer layer determined by X-ray diffraction analysis are 56.7 and 61.1%, respectively. Transmission electron microscopy result shows that no dislocations newly generated at the interface of the InGaN structure layer and the underlying InGaN buffer layer can be observed obviously. The cathodoluminescence spectra exhibit two strong emission peaks at the near-infrared wavelengths of 1090 and 1200 nm, which can be attributed to intrinsic transition and recombination processes of the fabricated InGaN alloys according to the calculation using the energy versus composition equation with a reasonable bowing parameter.

作者简介

Lianhong Yang

Department of Physics, Changji College

Email: zbhcjxy@163.com
中国, Changji, 831100

Fuqiang Guo

Department of Physics, Changji College

Email: zbhcjxy@163.com
中国, Changji, 831100

Baohua Zhang

Department of Physics, Changji College; Laboratory of Advanced Photonic and Electronic Materials, School of Electronic Science and Engineering,
Nanjing University

编辑信件的主要联系方式.
Email: zbhcjxy@163.com
中国, Changji, 831100; Nanjing, 210093

Yanqing Li

Department of Physics, Changji College

Email: zbhcjxy@163.com
中国, Changji, 831100

Dunjun Chen

Department of Physics, Changji College; Laboratory of Advanced Photonic and Electronic Materials, School of Electronic Science and Engineering,
Nanjing University

编辑信件的主要联系方式.
Email: zbhcjxy@163.com
中国, Changji, 831100; Nanjing, 210093


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