The main purpose of this book is to provide an overview of all phenomena which can be categorized under the general label of “electron scattering”, and to give a comprehensive description of all spectroscopical techniques related to electron scattering phenomena. Various classes of events are examined (electron in-electron out, photon in-electron out, electron in-two electron out, electron diffraction), together with the corresponding experimental techniques. A description of the underlying physics of various electron scattering phenomena is provided. For each spectroscopy, the general principles, the main fields of application, and some selected representative cases are discussed. The use of relatively low-cost electron sources is emphasized with respect to photon sources. The book is directed to PhD students and researchers not necessarily yet expert in the field.Contents:Elastic Scattering Techniques: Leed and RheedPhotoelectron and Auger DiffractionElectron Energy Loss Spectroscopy(e,2e) SpectroscopyExtended Energy Loss Fine StructureOther Electron Scattering TechniquesReadership: Physicists and chemists.Key Features:For the first time in literature, the study of evolution equations of real time variable and complex spatial variables is madeThe study includes some of the most important classes of partial differential equations: heat, Laplace, wave, telegraph, Burgers, Black–Merton–Scholes, Schrodinger and Korteweg–de Vries equationsThe book is entirely based on the authors' own work