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Shear deformation and strain relaxation in HgCdTe on (211) CdZnTe

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Abstract

Shear strain is present in Hg0.68Cd0.32Te epitaxial layers grown by molecular beam epitaxy on (211)-oriented Cd1−yZnyTe substrates. Differences in the substrate zinc composition led to lattice mismatch between the epitaxial layer and the substrate. The shear strain induced by the mismatch was measured using reciprocal space maps in the symmetric (422) and asymmetric (511) and (333) reflections. In addition, strain relaxation through the formation of misfit dislocations was confirmed using double crystal x-ray topography. Both the shear strain and the misfit dislocation density increased with increasing mismatch between the epitaxial layer and the substrate. Lattice-matched layers were free of misfit dislocations and exhibited triple axis diffraction rocking curve widths of approximately 6 arcsec. The combination of a thick epitaxial layer, a low index substrate, and the potential for lattice mismatch indicates that both shear strains and misfit dislocations must be considered in the structural analysis of HgCdTe/CdZnTe heterostructures.

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Authors and Affiliations

  1. Department of Materials Science and Engineering, University of California, 90095, Los Angeles

    T. T. Lam, C. D. Moore, R. L. Forrest & M. S. Goorsky

  2. Raytheon IRCoE, 93117, Goleta, CA

    S. M. Johnson, D. B. Leonard & T. A. Strand

  3. HRL Laboratories, 90265, Malibu, CA

    T. J. Delyon & M. D. Gorwitz

Authors
  1. T. T. Lam
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  2. C. D. Moore
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  3. R. L. Forrest
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  4. M. S. Goorsky
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  5. S. M. Johnson
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  6. D. B. Leonard
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  7. T. A. Strand
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  8. T. J. Delyon
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  9. M. D. Gorwitz
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Lam, T.T., Moore, C.D., Forrest, R.L. et al. Shear deformation and strain relaxation in HgCdTe on (211) CdZnTe. J. Electron. Mater. 29, 804–808 (2000). https://doi.org/10.1007/s11664-000-0228-8

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  • DOI: https://doi.org/10.1007/s11664-000-0228-8

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