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Comprehensive guide to an important materials science technique for students and researchers.
In this book the author discusses the investigation of ion bombardment of solids by computer simulation, with the aim of demonstrating the usefulness of this approach to the problem of interactions of ions with solids. The various chapters present the basic physics behind the simulation programs, their structure and many applications to different topics. The two main streams, the binary collision model and the classical dynamics model, are discussed, as are interaction potentials and electronic energy losses. The main topics investigated are backscattering, sputtering and implantation for incident atomic particles with energies from the eV to the MeV range. An extensive overview of the literature is given, making this book of interest to the active reseacher as well to students entering the field.
Several beam-solid interaction techniques have been developed that can either stand alone or be used in connection with others for materials processing, for fabrication of devices with enhanced electro-optical and mechanical properties, and with enhanced resistance to corrosion and erosion. For example, advances in focused ion beams (FIB) have brought out-of-reach ideas and applications to fruition. This book from MRS focuses on the developments in ion-beam-assisted processing of materials and reviews successful applications of the techniques. Topics include: fundamentals of ion-solid interactions; ion-beam mixing; radiation damage; insulators and wide bandgap materials; polymers; optical materials; plasma and ion-assisted techniques; metals and tribology; focused ion beams; fundamental semiconductor processing and compound semiconductors.
This book presents the method of ion beam modification of solids in realization, theory and applications in a comprehensive way. It provides a review of the physical basics of ion-solid interaction and on ion-beam induced structural modifications of solids. Ion beams are widely used to modify the physical properties of materials. A complete theory of ion stopping in matter and the calculation of the energy loss due to nuclear and electronic interactions are presented including the effect of ion channeling. To explain structural modifications due to high electronic excitations, different concepts are presented with special emphasis on the thermal spike model. Furthermore, general concepts of damage evolution as a function of ion mass, ion fluence, ion flux and temperature are described in detail and their limits and applicability are discussed. The effect of nuclear and electronic energy loss on structural modifications of solids such as damage formation, phase transitions and amorphization is reviewed for insulators and semiconductors. Finally some selected applications of ion beams are given.
Cluster Ion-Solid Interactions: Theory, Simulation, and Experiment provides an overview of various concepts in cluster physics and related topics in physics, including the fundamentals and tools underlying novel cluster ion beam technology. The material is based on the author's highly regarded courses at Kyoto University, Purdue University, the Mos