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Determination of stacking fault densities in 3C-SiC crystals by diffuse X-ray scattering

โœ Scribed by Boulle, A. ;Chaussende, D. ;Pecqueux, F. ;Conchon, F. ;Latu-Romain, L. ;Masson, O.

Publisher
John Wiley and Sons
Year
2007
Tongue
English
Weight
413 KB
Volume
204
Category
Article
ISSN
0031-8965

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โœฆ Synopsis

Abstract

Thick 3Cโ€SiC single crystals grown by continuousโ€feed physical vapor transport (CFโ€PVT) are studied by highโ€resolution Xโ€ray reciprocal space mapping. These crystals contain Shockleyโ€type stacking faults (SFs) lying in the {111} planes, which give rise to diffuse intensity streaks along the ใ€ˆ111ใ€‰ directions. An approach is presented that allows to determine, in combination with the simulation of transverse scans, the SF density from the simulation of the diffuse intensity streaks. SF densities as low as 0.4 ร— 10^3^ cm^โ€“1^ could be detected in highโ€quality CFโ€PVT grown crystals. (ยฉ 2007 WILEYโ€VCH Verlag GmbH & Co. KGaA, Weinheim)

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On the Investigation of Small Dislocatio
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## Abstract Results for analysing point defects in cubic crystals by diffuse Xโ€ray scattering as given in a previous paper are applied to small dislocation loops. The scattering pattern in the immediate vicinity of Bragg reflections is shown to indicate whether or not the crystal contains predomina