Der vorliegende erste Band dieses sehr umfassenden und detaillierten zweibändigen Werkes behandelt Defekte in Kristallen. Ein vorzüglicher, didaktisch geschickter Überblick über die kinematische Theorie bereitet auf Verständnis und Interpretation der Experimente vor. In allen Stadien finden sich direkte Vergleiche mit Experimenten an imperfektiven Kristallen. Dies ist ein außergewöhnliches Hand- und Lehrbuch für Diffraktionstheorie - gleichermaßen hilfreich für den erfahrenen Forscher wie für den Neuling auf dem Gebiet.
Der vorliegende erste Band dieses sehr umfassenden und detaillierten zweibändigen Werkes behandelt Defekte in Kristallen. Ein vorzüglicher, didaktisch geschickter Überblick über die kinematische Theorie bereitet auf Verständnis und Interpretation der Experimente vor. In allen Stadien finden sich direkte Vergleiche mit Experimenten an imperfektiven Kristallen. Dies ist ein außergewöhnliches Hand- und Lehrbuch für Diffraktionstheorie - gleichermaßen hilfreich für den erfahrenen Forscher wie für den Neuling auf dem Gebiet.
1. Distribution of the Scattering Intensity. General Aspects.- 1.1 Diffraction Techniques for Analyzing Imperfections in Crystals.- 1.2 Kinematical Theory of Scattering.- 1.3 Scattering by Perfect Crystals of Finite Size.- 1.4 Scattering in Undistorted Crystals Containing Microscopic Cavities or Inclusions.- 1.5 Scattering by Crystals Containing Defects of Arbitrary Type. Classification of Defects.- 1.6 Harmonic Analysis of the X-Ray Line Shapes.- 2. Static Displacements in Crystals with Bounded Defects.- 2.1 Fluctuation Waves of Defects Concentration and Static Displacements.- 2.2 Macroscopic Theory for the Static Displacement Waves.- 2.3 Microscopic Theory for the Static Displacement Waves.- 2.4 Static Displacement Fields Around Bounded Defects.- 2.5 Static Distortions in Quasi-One-Dimensional and Quasi-Two-Dimensional Crystals.- 3. Positions and Intensities of Regular Reflection Peaks.- 3.1 Shift of X-Ray Lines in Imperfect Crystals and the Determination of Defect Concentrations.- 3.2 Regular Reflection Intensities in Perfect Crystals.- 3.3 Effect of Static Displacements on Intensities of Regular Reflections.- 3.4 Effect of Thermal Vibrations in Imperfect Crystals.- 3.5 Debye-Waller Factors in Dynamical Diffraction Effects.- 4. Diffuse Scattering of X-Rays and Neutrons by Crystal Defects.- 4.1 Weakly Distorted Crystals.- 4.2 Effects of Groups of Point Defects, New-Phase Particles, or Small-Radius Dislocation Loops.- 4.3 Intensity Distribution for Scattering by Strongly Distorted Crystals with Finite Defects.- 4.4 Strongly Anisotropic Crystals.- 4.5 Effect of Finite Defects in Thin Films and Surface Layers on X-Ray Scattering.- 5. Scattering of X-Ray and Neutrons in Crystals with Dislocations.- 5.1 Broadening of Peaks by Randomly Distributed Defects of the Second Class.- 5.2 Effect of Nonrandom Dislocation Arrangement on Scattering Intensity Distribution.- 5.3 Diffraction Methods of Investigation of Dislocation Ensembles.- Appendices.- A. Cumulant Expansion.- B. Equations for Amplitudes of Static Displacement Waves for Various Crystal and Defect Symmetries.- D. Mean Squares of Static Displacements in fee Crystals.- for Strongly Deformed Crystals Containing Limited-Size Defects.- F. Calculation of T(?) for Homogeneous Dislocation Ensemble.- References.
1. Distribution of the Scattering Intensity. General Aspects.- 1.1 Diffraction Techniques for Analyzing Imperfections in Crystals.- 1.2 Kinematical Theory of Scattering.- 1.3 Scattering by Perfect Crystals of Finite Size.- 1.4 Scattering in Undistorted Crystals Containing Microscopic Cavities or Inclusions.- 1.5 Scattering by Crystals Containing Defects of Arbitrary Type. Classification of Defects.- 1.6 Harmonic Analysis of the X-Ray Line Shapes.- 2. Static Displacements in Crystals with Bounded Defects.- 2.1 Fluctuation Waves of Defects Concentration and Static Displacements.- 2.2 Macroscopic Theory for the Static Displacement Waves.- 2.3 Microscopic Theory for the Static Displacement Waves.- 2.4 Static Displacement Fields Around Bounded Defects.- 2.5 Static Distortions in Quasi-One-Dimensional and Quasi-Two-Dimensional Crystals.- 3. Positions and Intensities of Regular Reflection Peaks.- 3.1 Shift of X-Ray Lines in Imperfect Crystals and the Determination of Defect Concentrations.- 3.2 Regular Reflection Intensities in Perfect Crystals.- 3.3 Effect of Static Displacements on Intensities of Regular Reflections.- 3.4 Effect of Thermal Vibrations in Imperfect Crystals.- 3.5 Debye-Waller Factors in Dynamical Diffraction Effects.- 4. Diffuse Scattering of X-Rays and Neutrons by Crystal Defects.- 4.1 Weakly Distorted Crystals.- 4.2 Effects of Groups of Point Defects, New-Phase Particles, or Small-Radius Dislocation Loops.- 4.3 Intensity Distribution for Scattering by Strongly Distorted Crystals with Finite Defects.- 4.4 Strongly Anisotropic Crystals.- 4.5 Effect of Finite Defects in Thin Films and Surface Layers on X-Ray Scattering.- 5. Scattering of X-Ray and Neutrons in Crystals with Dislocations.- 5.1 Broadening of Peaks by Randomly Distributed Defects of the Second Class.- 5.2 Effect of Nonrandom Dislocation Arrangement on Scattering Intensity Distribution.- 5.3 Diffraction Methods of Investigation of Dislocation Ensembles.- Appendices.- A. Cumulant Expansion.- B. Equations for Amplitudes of Static Displacement Waves for Various Crystal and Defect Symmetries.- D. Mean Squares of Static Displacements in fee Crystals.- for Strongly Deformed Crystals Containing Limited-Size Defects.- F. Calculation of T(?) for Homogeneous Dislocation Ensemble.- References.
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