Peak emission wavelength tuning for Light Emitting Diodes and lasers for InGaN — deltaInyGa1−yN Quantum Well by varying the composition of the delta well

2013 Spanish Conference on Electron Devices Pub Date : 2013-03-21 DOI:10.1109/CDE.2013.6481379
I. Mahbub, M. S. Islam, S. Biswas
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Abstract

Four InGaN-delta InyGa1-yN Quantum Wells (QW) with four different values of y (1, 0.9, 0.8, 0.7) were investigated through the numerical solution of a k.p Hamiltonian with the Finite Difference Method (FDM). The spontaneous emission spectra and optical gain spectra of the four structures have been found to have a definite pattern where increasing the value of y gradually shifted the spectra toward the higher energy regions. The electron-hole ground state overlaps were not found to change by a great amount. Increasing y brought about a predictable shift of the spectra toward the higher energy regions at the expense of electron-hole wave function overlap.
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通过改变δ阱的组成来调整InGaN - deltaInyGa1−yN量子阱的发光二极管和激光器的峰值发射波长
利用有限差分法(FDM)对四种不同y值(1、0.9、0.8、0.7)的InGaN-delta InyGa1-yN量子阱(QW)进行了数值求解。发现这四种结构的自发发射光谱和光增益光谱有一个明确的模式,即随着y值的增加,光谱逐渐向高能区移动。电子-空穴基态重叠没有发生很大的变化。增加y可以使能谱向高能区移动,但代价是电子-空穴波函数重叠。
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2013 Spanish Conference on Electron Devices
2013 Spanish Conference on Electron Devices
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