Piezoelectric Franz-Keldysh effect in a GaN/InGaN/AlGaN multilayer structure

机译：GaN / InGaN / AlGaN多层结构中的压电Franz-Keldysh效应

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Abstract: Contactless electroreflectance (CER) of a GaN/InGaN/AlGaN multilayer structure grown on sapphire has been measured in the temperature range of 15K and 450K. Except for the GaN exciton structures, well-defined Franz-Keldysh Oscillations are observed above the AlGaN band gap. An electomodulational model based on complex Airy functions is used to analyze the FKOs line shape. The temperature dependence of transition energies is obtained both for GaN and AlGaN. The magnitude of the built in electric field in AlGaN layer is also determined. The temperature dependence of the electric field is found to be consistent with the variation of thermal strain in the epilayer. It is demonstrated that the built-in electric field can be identified to be due to the piezoelectric effect. !28

机译：摘要：已经在15K和450K的温度范围内测量了在蓝宝石上生长的GaN / InGaN / AlGaN多层结构的非接触电反射（CER）。除GaN激子结构外，在AlGaN带隙上方观察到清晰的Franz-Keldysh振荡。基于复杂艾里函数的电调制模型用于分析FKO的线形。 GaN和AlGaN都获得了跃迁能量的温度依赖性。还确定了AlGaN层中内置电场的大小。发现电场的温度依赖性与外延层中热应变的变化一致。证明了可以识别出内置电场是由于压电效应引起的。！28

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《Photonics Technology into the 21st Century: Semiconductors, Microstructures, and Nanostructures》|1999年|p.46-53|共8页
会议地点 Singapore(SG)
作者
Yong T. Hou; National Univ. of Singapore; Singapore; Singapore; Kie L. Teo; National Univ. of Singapore; Singapore; Singapore; Ming Fu Li; National Univ. of Singapore; Singapore; Singapore; Kazuo Uchida; Univ. of Electro-Communications; Choufu Tokyo; Japa;
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Piezoelectric Franz-Keldysh effect in a GaN/InGaN/AlGaN multilayer structure

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