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Investigation on the strain relaxation of InGaN layer and its effects on the InGaN structural and optical properties

Authors
  • h.), h wang (wang
  • d. s.), ds jiang (jiang
  • u.), u jahn (jahn
  • j. j.), jj zhu (zhu
  • d. g.), dg zhao (zhao
  • z. s.), zs liu (liu
  • s. m.), sm zhang (zhang
  • y. x.), yx qiu (qiu
  • h.), h yang (yang
Publication Date
Jan 01, 2010
Source
Knowledge Repository of SEMI,CAS
Keywords
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Unknown
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Abstract

The evolution of strain and structural properties of thick epitaxial InGaN layers grown on GaN with different thicknesses are investigated. It is found that, with increase in InGaN thickness, plastic relaxation via misfit dislocation generation becomes a more important strain relaxation mechanism. Accompanied with the relaxation of compressive strain, the In composition of InGaN layer increases and induces an apparent red-shift of the cathodoluminescence peak of the InGaN layer. On the other hand, the plastic relaxation process results in a high defect density, which degrades the structural and optical properties of InGaN layers. A transition layer region with both strain and In composition gradients is found to exist in the 450-nm-thick InGaN layer.

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