拉曼光谱探测AlN/SiC异质界面的应力分布

I. Breev, K. V. Likhachev, V. Yakovleva, René Hübner, G. Astakhov, P. Baranov, E. N. Mokhov, A. Anisimov
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引用次数: 5

摘要

采用物理气相沉积法制备了AlN/4H-SiC和AlN/6H-SiC异质结构,并对其异质界面进行了纳米级分辨率表征。此外,我们利用共聚焦拉曼光谱研究了这些异质结构中的空间应力和应变分布。我们测量了跨异质界面和沿4H-和6H-SiC层的整个深度的各种振动拉曼模式的光谱位移。利用先前对声子变形势常数的实验预测,我们确定了SiC中的应力张量分量作为与AlN/SiC异质界面距离的函数。尽管SiC的晶格参数小于AlN,但SiC层在异质界面处存在压缩应变。当异质结构从生长冷却到室温时,SiC和AlN的热膨胀系数不同可以解释这种违反直觉的行为。压应力值在异质界面处最大,接近1 GPa,并在距离异质界面几十微米的尺度上松弛到平衡值。
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Stress distribution at the AlN/SiC heterointerface probed by Raman spectroscopy
We grow AlN/4H-SiC and AlN/6H-SiC heterostructures by physical vapor deposition and characterize the heterointerface with nanoscale resolution. Furthermore, we investigate the spatial stress and strain distribution in these heterostructures using confocal Raman spectroscopy. We measure the spectral shifts of various vibrational Raman modes across the heterointerface and along the entire depth of the 4H- and 6H-SiC layers. Using the earlier experimental prediction for the phonon-deformation potential constants, we determine the stress tensor components in SiC as a function of the distance from the AlN/SiC heterointerface. In spite that the lattice parameter of SiC is smaller than that of AlN, the SiC layers are compressively strained at the heterointerface. This counterintuitive behavior is explained by different coefficients of thermal expansion of SiC and AlN when the heterostructures are cooled from growth to room temperature. The compressive stress values are maximum at the heterointerface, approaching one GPa, and relaxes to the equilibrium value on the scale of several tens of microns from the heterointerface.
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