|
Semiconductor Physics, Quantum Electronics and Optoelectronics, 13 (3) P. 268-272 (2010).
DOI:
https://doi.org/10.15407/spqeo13.03.268
References
| 1. A. Authier, Dynamical Theory of X-Ray Diffraction. Oxford University Press, New York, 2001. | | | | 2. D.K. Bowen, B.K. Tanner, High Resolution X-Ray Diffractometry and Topography. Taylor Francis, London, 1998. | | | | 3. E.V. Suvorov, I.L. Shulpina, X-Ray Optics of Defect Crystals // Surface No.7, pp. 3-32 (2001) (in Russian). | | | | 4. L.N. Danil'chuk Drozdov, Digital processing of X-ray topographic and polarization-optical images of single crystal structure defects. Y. Mudryi Novgorod State University, Velikyi Novgorod, 2004 (in Russian). | | | 5. E.V. Suvorov, І.А. Smirnova, E.V. Shulakov, Formation of the image of an edge dislocation in an absorbing crystal // FTT 49(6), pp. 1050-1057 (2007) (in Russian).
https://doi.org/10.1134/S1063783407060145 | | | 6. J. Hartwig, Hierarchy of dynamical theories of xray diffraction for deformed and perfect crystals // J. Applied Physics. 34(10A), pp. A70-A77 (2001).
https://doi.org/10.1088/0022-3727/34/10A/315 | | | 7. S. Takagi, Dynamical theory of difraction applicable to crystals with any Kind of small distortion // Acta Cryst. 15, pp.1311-1312 (1962).
https://doi.org/10.1107/S0365110X62003473 | | | 8. Y. Epelboin, Simulatіon of X-ray topografs // Material Science and Engineering 73, pp.1-43 (1985).
https://doi.org/10.1016/0025-5416(85)90294-0 | | | 9. Y.Epelboin, A varying-step algorithm for the numerical integration of Takagi-Taupin equations // Acta Cryst. A37, pp.132-133 (1981).
https://doi.org/10.1107/S0567739481000223 | | | 10. V.L. Indenbom, V.M. Kaganer, The formation of plane-wave X-ray images of microdefects // Phys. status solidi A 87, pp. 253-265 (1985).
https://doi.org/10.1002/pssa.2210870125 | | | | 11. L.N.Danil'chuk, Рентгеновское наблюдение полей деформаций вокруг краевых дислокаций в монокристаллах кремния // FTT 11, pp. 3085- 3091 (1969) (in Russian). | | | | 12. L.N.Danil'chuk, Ju.А.Drosdov, А.О.Оkunev et. al., X-ray topography of single crystal structure defects in semiconductors on the basis of the Borrmann effect (review) // Factory Lab. Diagnostics of Materials 68(11), pp. 24-33 (2002) (in Russian). | | | | 13. C. Teodosiu, Elastic Models of Crystal Defects. Mir, Moscow, 1985 (in Russian). | | | | 14. J.P.Hirth, J. Lothe, Theory of Dislocations. Eds.: Atomizdat, Moscow, 1972 (in Russian). | | | | 15. R.G.Rodes, Imperfections and active centres in semiconductors. Metallurgiya, Moscow, 1968 (in Russian). | | | 16. R. De Wit, Some Relations for Straight Dislocations // Phys. Stat. Sol. 20, pp.567-573 (1967).
https://doi.org/10.1002/pssb.19670200217 | | | | 17. V.B. Gevyk, S.N. Novikov, D.G. Fedortsov, I.M. Fodchuk, Simulation of X-ray diffraction images of dislocation loops in crystals // Met. Phys. Adv. Tech. 27(9), pp.1237-1250 (2005) (in Russian). | | | 18. A. Authier, F. Balibar, Création de Nouveaux Champs d'Ondes Dus à la Présence d'un Objet Diffractant à I'Intérieur d'un Cristal Parfait. II. Cas d'un Defaut Isole // Acta Cryst. A26, pp.647-654 (1970).
https://doi.org/10.1107/S0567739470001596 | | | 19. S. Novіkov, І. Fodchuk, D. Fedortsov, A. Struk, Xray section images of dislocations and dislocation barriers in Si // Phys.stat.sol.(a) 206(8), pp. 1820- 1824 (2009).
https://doi.org/10.1002/pssa.200881592 | | |
|
|