Dislocation analysis of epitaxial InAsSb on a metamorphic graded layer using x-ray topography

Dislocations in compositionally graded virtual substrates and InAsSb epitaxial layers for long wavelength (8–12 μm) photodetectors have been investigated with high-resolution x-ray topography (XRT). By varying the imaging conditions, the properties of the virtual substrate and InAsSb could be indivi...

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Bibliographic Details
Published in:Journal of applied physics 2022-05, Vol.131 (18)
Main Authors: Mahadik, Nadeemullah A., Svensson, Stefan P.
Format: Article
Language:English
Subjects:
Applied physics
Arrays
Density
Epitaxial layers
Misfit dislocations
Optimization
Substrates
Threading dislocations
Topography
X ray topography
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Summary:Dislocations in compositionally graded virtual substrates and InAsSb epitaxial layers for long wavelength (8–12 μm) photodetectors have been investigated with high-resolution x-ray topography (XRT). By varying the imaging conditions, the properties of the virtual substrate and InAsSb could be individually characterized. We observe the formation of misfit dislocations near the interface predominantly along the (110) direction and with less relaxation along the (1–10) direction. The misfit dislocations do not form a uniform array of dislocations but rather appear as dislocation bundles. Threading dislocation clusters, which could limit device performance, are observed along the misfit arrays with a density ∼1 × 105 cm−2 and a total averaged density of less than 1 × 106 cm−2. The prospects for using XRT for further optimization of virtual substrate and development of low defect bulk InAsSb layers are discussed.
ISSN:0021-8979
1089-7550
DOI:10.1063/5.0091954