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X-ray diffuse scattering effects from Coulomb-type defects in multilayered structures

✍ Scribed by Olikhovskii, S. I. ;Molodkin, V. B. ;Skakunova, E. S. ;Kislovskii, E. N. ;Fodchuk, I. M.

Publisher
John Wiley and Sons
Year
2009
Tongue
English
Weight
296 KB
Volume
206
Category
Article
ISSN
0031-8965

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✦ Synopsis

Abstract

The theoretical X‐ray diffraction model starting from Takagi–Taupin equation has been developed for the description of coherent and diffuse components of the rocking curve (RC) measured from the multilayered crystal structure with randomly distributed Coulomb‐type defects in all the layers and substrate. The model describes both diffuse scattering (DS) intensity distribution and influence of DS on attenuation and angular redistribution of the coherent X‐ray scattering intensity. By analyzing the total measured RC with using the proposed diffraction model, the chemical compositions, strains, and characteristics of dislocation loops in layers and substrate of the multilayered structure with InGaAsN/GaAs single quantum well have been determined.

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## Abstract Diffuse X‐ray scattering from the displacement field of point defects in low temperature X‐irradiated KBr single crystals was measured. The distribution of diffuse scattered intensity in reciprocal space confirms the theoretical predictions of scattering from isolated point, defects. Fr