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O. Litzman, P. Rózsa (1977)
The interaction of light with a semiinfinite dielectric as a phonon problem; the generalized Snellius law and Fresnel formulaeSurface Science, 66
Wijers, Poppe (1992)
Microscopic treatment of the angular dependence of surface induced optical anisotropy.Physical review. B, Condensed matter, 46 12
Ignatovich, Protopopescu, Utsuro (1996)
Width of the Darwin Table for Forbidden Reflections.Physical review letters, 77 20
O. Litzman (1986)
Dynamical Theory of Diffraction on a Periodic System of Point ScatterersActa Crystallographica Section A, 42
P. Dub (1983)
The influence of a surface monolayer on the s-polarized optical properties of a dielectric; the classical microscopical modelSurface Science, 135
O. Litzman (1980)
The Microscopical Theory of Reflection and Transmission of Light by a Spatial Dispersive Dielectric Slab and the Ewald Dynamical Theory of DiffractionJournal of Modern Optics, 27
O. Litzman, P. Dub (1990)
Ewald's extended dynamical theory of diffractionActa Crystallographica Section A, 46
O. Litzman (1978)
The Ewald Dynamical Theory of Reflection and Transmission of Light by a Dielectric Slab. The Extinction Theorem in Spatially Dispersive MediaJournal of Modern Optics, 25
H. Wagenfeld (1968)
Ewald's and von Laue's dynamical theories of X‐ray diffractionActa Crystallographica Section A, 24
O. Litzman, P. Mikulík (1999)
The crystal truncation rod scattering of neutrons and the multiwave dynamical theory of diffractionJournal of Physics: Condensed Matter, 11
P. Dub, O. Litzman (2001)
A note on the problem of scattering from a single atomic plane and a stack of planes. Differences between the Ewald and other diffraction theories.Acta Crystallographica Section A, 57
O. Litzman, P. Dub (1982)
The Ewald Microscopical Theory of the Interaction of Light with a Dielectric and the Generalized Snell Law in the Far-U.V. RegionJournal of Modern Optics, 29
Petr Dub, Otto Litzman (2001)
Is the border surface of a crystal indeed the weakest point of the dynamical theory of diffraction?Acta crystallographica. Section A, Foundations of crystallography, 57 Pt 6
Diffraction on a crystalline slab formed by point‐like scattering centres is treated as a multiple scattering problem based on the Ewald equations. Using general results expressed in a lucid matrix form, the two‐beam solution for both coplanar and non‐coplanar cases valid near and far from Bragg peaks is found and a detailed comparison of the final formulae obtained with those following from Laue's theory is performed.
Acta Crystallographica Section A Foundations of Crystallography – Wiley
Published: Mar 1, 2005
Keywords: ;
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