This book provides tools well suited for the quantitative investigation of semiconductor electron microscopy. These tools allow for the accurate determination of the composition of ternary semiconductor nanostructures with a spatial resolution at near atomic scales. The book focuses on new methods including strain state analysis as well as evaluation of the composition via the lattice fringe analysis (CELFA) technique. The basics of these procedures as well as their advantages, drawbacks and sources of error are all discussed. The techniques are applied to quantum wells and dots in order to...

The book presents an overview on important aspects of ion irradiation of surfaces, emphasizing low impact energies. Specifically, ion penetration and implantation into solids, defect creation and amorphization of semiconductors, sputtering of elemental and multicomponent targets, and ionization processes of emitted species are discussed. It provides a synoptic view of these phenomena which are strongly interrelated by the same basic processes, but are often described separately and in diverging terminology. The book tries to bridge this gap, summarizing results from experiments, computer...

The book describes RHEED (reflection high-energy electron diffraction) used as a tool for crystal growth. New methods using RHEED to characterize surfaces and interfaces during crystal growth by MBE (molecular beam epitaxy) are presented. Special emphasis is put on RHEED intensity oscillations, segregation phenomena, electron energy-loss spectroscopy and RHEED with rotating substrates.

This volume describes mesoscopic systems with classically chaotic dynamics using semiclassical methods which combine elements of classical dynamics and quantum interference effects. Experiments and numerical studies show that Random Matrix Theory (RMT) explains physical properties of these systems well. This was conjectured more than 25 years ago by Bohigas, Giannoni and Schmit for the spectral properties. Since then, it has been a challenge to understand this connection analytically.
The author offers his readers a clearly-written and up-to-date treatment of the topics covered. He...

This book reviews all the state-of-the-art simulation methods used to investigate the atomistic-scale properties of technologically important oxide materials. Previous and many recent results are carefully discussed.

Multiple scattering of waves is a rapidly growing field with many applications. The research group "Propagation of Waves in Disordered and/or Nonlinear Media" POAN brought together experts from different disciplines to write this review which covers applied mathematics, optics, acoustics, remote sensing, and seismology.

The book reviews structural disorder in alloys and shows how detailed information can be found by applying thermal neutron and / or x-ray scattering. Interactions among atoms of the alloy are modeled by Monte Carlo methods thus achieving a picture of the electronic structure of the system. Precision Monte Carlo Simulations are also used for testing existing theories of wetting.