Effects Of Different Growth Temperatures Towards Indium Composition And Performance Of Ingan Quantum Well Heterostructure

In the present work, InGaN quantum well (QW) and undoped GaN layer were grown on a flat sapphire substrate (FSS) with different growth temperatures using Metal Organic Chemical Vapor Phase Deposition (MOCVD) to investigate the effects of growth temperature towards indium (In) composition and perform...

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Bibliographic Details
Main Authors: Seliman, Muhd Azi Che, Hassan, Zainuriah, Yusof, Ahmad Sauffi, Ahmad, Mohd Anas, Hamzah, Nur Atiqah, Asri, Rahil Izzati Mohd, Baharin, Mohd Syamsul Nasyriq Samsol
Format: Conference or Workshop Item
Language:English
Published: 2020
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Online Access:http://eprints.usm.my/49097/1/ABSTRACT%20BOOK%20MNRG%202020.pdf%20cut%2077.pdf
http://eprints.usm.my/49097/
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Summary:In the present work, InGaN quantum well (QW) and undoped GaN layer were grown on a flat sapphire substrate (FSS) with different growth temperatures using Metal Organic Chemical Vapor Phase Deposition (MOCVD) to investigate the effects of growth temperature towards indium (In) composition and performance of the heterostructure. According to photoluminescence (PL) measurement, within growth temperature of 750 °C to 850 °C, the range of emission wavelength achieved was 386 nm to 476 nm. While higher growth temperature led to shorter emission wavelength, In composition in the active region was affected as well due to decomposition of In at high temperature. Using quantitative phase analysis of High Resolution X-Ray Diffraction System (HRXRD), measurement of In composition was conducted to further study the structural properties of the structure and conclude the optimization of InGaN QW layer.