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外文期刊>Electron Device Letters, IEEE
>Numerical Simulation and Experimental Analysis of Current Spreading Length in Nitride-Based Light-Emitting Diodes Prepared on 10- src='/images/tex/26026.gif' alt='mu text{m}'> -Thick n-GaN Template
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Numerical Simulation and Experimental Analysis of Current Spreading Length in Nitride-Based Light-Emitting Diodes Prepared on 10- src='/images/tex/26026.gif' alt='mu text{m}'> -Thick n-GaN Template
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机译:在10- src =“ / images / tex / 26026.gif” alt =“ mu text {m}”>中制备的基于氮化物的发光二极管中,电流扩散长度的数值模拟和实验分析 inline-formula>-厚的n-GaN模板
Numerical and experimental demonstrations were performed in this letter to enhance the current spreading length of nitride-based light-emitting diodes (LEDs) with a 10--thick n-GaN template on an AlN/high-aspect ratio patterned sapphire substrate template via hydride vapor phase epitaxy. At an injection current of 20 mA, the output powers were 4.34 and 6.39 mW for a conventional LED and an LED with a 10--thick n-GaN template, respectively. The larger LED output power is attributed to the enhanced current spreading length, which improved the heat dissipation ability and the improved crystal quality.
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