I Diffraction and Imaging of Elastically Scattered Electrons.- 1. Basic Kinematic Electron Diffraction.- 2. Dynamic Elastic Electron Scattering I: Bloch Wave Theory.- 3. Dynamic Elastic Electron Scattering II: Multislice Theory.- 4.

Dynamic Elastic Electron Scattering III: Other Approaches.- 5. Diffraction and Imaging of Reflected High-Energy Electrons from Bulk Crystal Surfaces.- II Diffraction and Imaging of Inelastically Scattered Electrons.- 6. Inelastic Excitations and Absorption Effect in Electron Diffraction.- 7. Semiclassical Theory of Thermal Diffuse Scattering.

- 8. Dynamic Inelastic Electron Scattering I: Bloch Wave Theory.- 9. Reciprocity in Electron Diffraction and Imaging.- 10. Dynamic Inelastic Electron Scattering II: Green's Function Theory.- 11. Dynamic Inelastic Electron Scattering III: Multislice Theory.

- 12. Dynamic Inelastic Electron Scattering IV: Modified Multislice Theory.- 13. Inelastic Scattering in Sub-Angstrom Electron Imaging and Holography - 14. Dynamic theory of thermal diffusely scattered electrons.- 15. Electron diffuse scattering from crystals with correlated point defects. 16.

Multiple inelastic electron scattering from thick crystals- 17. Inelastic Excitation of Crystals in Thermal Equilibrium with the Environment.- Appendixes.- A. Physical Constants, Electron Wavelengths, and Wave Numbers.- B. Properties of Fourier Transforms.- B.

1. Identities.- C. Some Properties of Dirac Delta Functions.- C.1. Defining Relationships and Normalization Conditions.- C.

2. Useful Representations of the Delta Function.- D. Integral Form of the Schrödinger Equation.- E. Some Useful Mathematical Relations.- References.