The applicability of Raman spectroscopy for estimation of interfaces thickness in the AlN/GaN superlattices

IF 0.2 Q4 PHYSICS, MULTIDISCIPLINARY
Dmitrii V. Pankin, Mikhail B. Smirnov
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引用次数: 0

Abstract

Polar optical phonons in quaternary nitride-based superlattices have been investigated in the framework of the dielectric continuum model. In the considered systems, the superlattice period consisted of two main GaN and AlN layers and two interstitial Al0.5Ga0.5 N layers. Such a structure simulates binary superlattices with diffuse interfaces. The presence of the finite thickness interface layers was shown to give rise to appearance of several low-intensity additional phonon modes active in Raman scattering; frequency splitting of such modes is sensitive to relative thickness of intermediate layers. The fundamental Raman-intense polar phonon modes were also stated to be independent on the interface thickness, and these modes were very sensitive to the main layer thicknesses.

拉曼光谱在估算AlN/GaN超晶格界面厚度中的适用性
在介电连续介质模型的框架下研究了四元氮基超晶格中的极性光学声子。在所考虑的系统中,超晶格周期由两个主要的GaN和AlN层和两个间隙的Al0.5Ga0.5 N层组成。这种结构模拟了具有扩散界面的二元超晶格。有限厚度界面层的存在导致拉曼散射中出现几个低强度附加声子模式;这种模式的频率分裂对中间层的相对厚度很敏感。基本的拉曼强极性声子模式也与界面厚度无关,并且这些模式对主层厚度非常敏感。
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