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Sensitivity of triple-crystal X-ray diffractometers to microdefects in silicon
The dynamical theory, which describes both diffraction profiles and reciprocal space maps measured from imperfect crystals with account for instrumental factors of triple‐crystal diffractometer (TCD), has been developed for adequate quantitative characterization of microdefects. Analytical expressio...
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| Published in: | Physica status solidi. A, Applications and materials science Applications and materials science, 2009-08, Vol.206 (8), p.1761-1765 |
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| Main Authors: | , , , , , , , |
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| cites | cdi_FETCH-LOGICAL-c3578-b829b1aee5ec0190c2363b9c6d8b948ba85547ff266292583449a80c9b6f28373 |
| container_end_page | 1765 |
| container_issue | 8 |
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| container_title | Physica status solidi. A, Applications and materials science |
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| creator | Molodkin, V. B. Olikhovskii, S. I. Len, E. G. Kislovskii, E. N. Kladko, V. P. Reshetnyk, O. V. Vladimirova, T. P. Sheludchenko, B. V. |
| description | The dynamical theory, which describes both diffraction profiles and reciprocal space maps measured from imperfect crystals with account for instrumental factors of triple‐crystal diffractometer (TCD), has been developed for adequate quantitative characterization of microdefects. Analytical expressions for coherent and diffuse scattering (DS) intensities measured by TCD in the Bragg diffraction geometry have been derived by using the generalized statistical dynamical theory of X‐ray scattering in real single crystals with randomly distributed defects. The DS intensity distributions from single crystals containing clusters and dislocation loops have been described by explicit analytical expressions. Particularly, these expressions take into account anisotropy of displacement fields around defects with discrete orientations. Characteristics of microdefect structures in silicon single crystals grown by Czochralsky‐ and float‐zone methods have been determined by analyzing the measured TCD profiles and reciprocal space maps. The sensitivities of reciprocal space maps and diffraction profiles to defect characteristics have been compared. |
| doi_str_mv | 10.1002/pssa.200881588 |
| format | article |
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B. ; Olikhovskii, S. I. ; Len, E. G. ; Kislovskii, E. N. ; Kladko, V. P. ; Reshetnyk, O. V. ; Vladimirova, T. P. ; Sheludchenko, B. V.</creator><creatorcontrib>Molodkin, V. B. ; Olikhovskii, S. I. ; Len, E. G. ; Kislovskii, E. N. ; Kladko, V. P. ; Reshetnyk, O. V. ; Vladimirova, T. P. ; Sheludchenko, B. V.</creatorcontrib><description>The dynamical theory, which describes both diffraction profiles and reciprocal space maps measured from imperfect crystals with account for instrumental factors of triple‐crystal diffractometer (TCD), has been developed for adequate quantitative characterization of microdefects. Analytical expressions for coherent and diffuse scattering (DS) intensities measured by TCD in the Bragg diffraction geometry have been derived by using the generalized statistical dynamical theory of X‐ray scattering in real single crystals with randomly distributed defects. The DS intensity distributions from single crystals containing clusters and dislocation loops have been described by explicit analytical expressions. Particularly, these expressions take into account anisotropy of displacement fields around defects with discrete orientations. Characteristics of microdefect structures in silicon single crystals grown by Czochralsky‐ and float‐zone methods have been determined by analyzing the measured TCD profiles and reciprocal space maps. The sensitivities of reciprocal space maps and diffraction profiles to defect characteristics have been compared.</description><identifier>ISSN: 1862-6300</identifier><identifier>EISSN: 1862-6319</identifier><identifier>DOI: 10.1002/pssa.200881588</identifier><language>eng</language><publisher>Berlin: WILEY-VCH Verlag</publisher><subject>61.05.cc ; 61.05.cp ; 61.72.Dd ; Condensed matter: structure, mechanical and thermal properties ; Defects and impurities in crystals; microstructure ; Exact sciences and technology ; Experimental determination of defects by diffraction and scattering ; Physics ; Single-crystal and powder diffraction ; Structure of solids and liquids; crystallography ; X-ray diffraction and scattering</subject><ispartof>Physica status solidi. A, Applications and materials science, 2009-08, Vol.206 (8), p.1761-1765</ispartof><rights>Copyright © 2009 WILEY‐VCH Verlag GmbH & Co. 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The DS intensity distributions from single crystals containing clusters and dislocation loops have been described by explicit analytical expressions. Particularly, these expressions take into account anisotropy of displacement fields around defects with discrete orientations. Characteristics of microdefect structures in silicon single crystals grown by Czochralsky‐ and float‐zone methods have been determined by analyzing the measured TCD profiles and reciprocal space maps. 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Particularly, these expressions take into account anisotropy of displacement fields around defects with discrete orientations. Characteristics of microdefect structures in silicon single crystals grown by Czochralsky‐ and float‐zone methods have been determined by analyzing the measured TCD profiles and reciprocal space maps. The sensitivities of reciprocal space maps and diffraction profiles to defect characteristics have been compared.</abstract><cop>Berlin</cop><pub>WILEY-VCH Verlag</pub><doi>10.1002/pssa.200881588</doi><tpages>5</tpages></addata></record> |
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| ispartof | Physica status solidi. A, Applications and materials science, 2009-08, Vol.206 (8), p.1761-1765 |
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| language | eng |
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| source | Wiley-Blackwell Read & Publish Collection |
| subjects | 61.05.cc 61.05.cp 61.72.Dd Condensed matter: structure, mechanical and thermal properties Defects and impurities in crystals microstructure Exact sciences and technology Experimental determination of defects by diffraction and scattering Physics Single-crystal and powder diffraction Structure of solids and liquids crystallography X-ray diffraction and scattering |
| title | Sensitivity of triple-crystal X-ray diffractometers to microdefects in silicon |
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