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Diffuse x-ray scattering study of the formation of microdefects in heat-treated dislocation-free large-diameter silicon wafers
Authors:V. T. Bublik  S. Yu. Matsnev  K. D. Shcherbachev  M. V. Mezhennyi  M. G. Mil’vidskii  V. Ya. Reznik
Affiliation:(1) Moscow Institute of Steel and Alloys, Leninskii pr. 4, Moscow, 117936, Russia;(2) Giredmet State Research Institute for the Rare-Metals Industry, Bol’shoi Tolmachevskii per. 5, Moscow, 109017, Russia;(3) Institute for Chemical Problems of Microelectronics, Bol’shoi Tolmachevskii per. 5, Moscow, 109017, Russia
Abstract:Diffuse x-ray scattering (DXS) is used to study the formation of microdefects (MDs) in heat-treated dislocation-free large-diameter silicon wafers with vacancies. The DXS method is shown to be efficient for investigating MDs in silicon single crystals. Specific defects, such as impurity clouds, are found to form in the silicon wafers during low-temperature annealing at 450°C. These defects are oxygen-rich regions in the solid solution with diffuse coherent interfaces. In the following stages of decomposition of the supersaturated solid solution, oxide precipitates form inside these regions and the impurity clouds disappear. As a result of the decomposition of the supersaturated solid solution of oxygen, interstitial MDs form in the silicon wafers during multistep heat treatment. These MDs lie in the {110} planes and have nonspherical displacement fields. The volume density and size of MDs forming in the silicon wafers at various stages of the decomposition are determined.
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