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Analysis by optical absorption and transmission electron microscopy of the strain inhomogeneities in InGaAs/InP strained layers

机译：通过光学吸收和透射电子显微镜分析InGaAs / InP应变层中的应变不均匀性

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Optical absorption spectra and transmission electron microscopy (TEM) observations on InGaAs/InP layers under compressive strain are reported. From the band¿gap energy dispersion, the magnitude of the strain inhomogeneities. Is quantified and its microscopic origin is analyzed in view of the layer microstructure. TEM observations reveal a dislocation network at the layer interface the density of which correlates with ¿¿. It is concluded that local variations of dislocation density are responsible for the inhomogeneous strain field together with another mechanism that dominates when the dislocation density is very low.

机译：报道了在压缩应变下InGaAs / InP层上的光学吸收光谱和透射电子显微镜（TEM）观察结果。从带隙能量色散，应变不均匀性的大小。鉴于层的微观结构，对其进行了定量和分析。 TEM观测表明，层界面处的位错网络的密度与¿相关。结论是，位错密度的局部变化是造成不均匀应变场的原因，另外还有另一种在位错密度非常低时占主导地位的机制。

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Roura Grabulosa Pere; Clark S. A.; Bosch Estrada José; Peiró Martínez Francisca; Cornet i Calveras Albert; Morante i Lleonart Joan Ramon;
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年度 1995
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正文语种 {"code":"en","name":"English","id":9}
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3. High resolution transmission electron microscope analysis of CdSe/ZnSe strained layer superlattices grown on InP [J] . Nabetani Y., Kobayashi Y., Kato T., Physica status solidi, B. Basic research . 2002,第1期

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Analysis by optical absorption and transmission electron microscopy of the strain inhomogeneities in InGaAs/InP strained layers

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