Matching Items (5)
ContributorsOuyang, Lu (Author) / Steenbergen, Elizabeth H. (Author) / Zhang, Yong-Hang (Author) / Nunna, Kalyan (Author) / Huffaker, Diana L. (Author) / Smith, David J. (Author)
Created2012
ContributorsSteenbergen, Elizabeth H. (Author) / Nunna, Kalyan (Author) / Ouyang, Lu (Author) / Ullrich, Bruno (Author) / Huffaker, Diana L. (Author) / Smith, David J. (Author) / Zhang, Yong-Hang (Author)
Created2012
ContributorsLiu, Shi (Author) / Li, Hua (Author) / Cellek, Oray O. (Author) / Ding, Ding (Author) / Shen, Xiao-Meng (Author) / Lin, Zhi-Yuan (Author) / Steenbergen, Elizabeth H. (Author) / Fan, Jin (Author) / He, Zhao-Yu (Author) / Lu, Jing (Author) / Johnson, Shane R. (Author) / Smith, David J. (Author) / Zhang, Yong-Hang (Author)
Created2013
ContributorsMahalingam, Krishnamurthy (Author) / Steenbergen, Elizabeth H. (Author) / Brown, Gail J. (Author) / Zhang, Yong-Hang (Author)
Created2013
Description
Atomic resolution transmission electron microscopy is performed to examine the strain distribution in an InAs/InAs1-xSbx superlattice grown on a (100)-GaSb substrate. The strain profiles reveal that the thickness of tensile regions in the superlattice is significantly lower than expected, with a corresponding increase in thickness of the compressive regions. Furthermore, significant grading is observed within the tensile regions of the strain profile, indicating Sb intermixing from the InAsSb growth surface. The results signify an effective reduction in the InAs layer thickness due to the anion (As-Sb) exchange process at the InAs-on-InAsSb interface. (C) 2013 AIP Publishing LLC.
ContributorsZhang, Yong-Hang (Author) / Mahalingam, Krishnamurthy (Author) / Steenbergen, Elizabeth H. (Author) / Brown, Gail J. (Author) / Ira A. Fulton Schools of Engineering (Contributor)
Created2013