Atomistic Mechanisms In Beam Synthesis And Irradiation Of Materials Volume 504
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Atomistic Mechanisms in Beam Synthesis and Irradiation of Materials: Volume 504
Some 70 papers focus on atomistic processes that occur in metals, ceramics and glasses, and polymers exposed to energetic beams in order to synthesize or modify a material. Sections also explore defects and modelling, energetic particle synthesis and mechanical properties, and optical materials and nanoclusters. The invited papers cover defect evolution in ion-implanted Silicon from point to extended defects, achievements of the Japanese government and university projects in ion and laser beam technology, forming metastable materials by ion-beam-assisted deposition and its application to metal clusters in ceramic matrices, and the mesoscale engineering of nanocomposite nonlinear optical materials. Annotation copyrighted by Book News, Inc., Portland, OR
Engineering Thin Films and Nanostructures with Ion Beams
While ion-beam techniques have been used to create thin films in the semiconductor industry for several decades, these methods have been too costly for other surface treatment applications. However, as manufacturing devices become increasingly smaller, the use of a directed-energy ion beam is finding novel industrial applications that require the custom tailoring of new materials and devices, including magnetic storage devices, photonics, opto-electronics, and molecular transport. Engineering Thin Films and Nanostructures with Ion Beams offers a thorough narrative of the recent advances that make this technology relevant to current and future applications. Featuring internationally recognized researchers, the book compiles their expertise in a multidimensional source that: Highlights the mechanisms and visual evidence of the effects of single-ion impacts on metallic surfaces Considers how ion-beam techniques can help achieve higher disk-drive densities Introduces gas-cluster ion-beam technology and reviews its precedents Explains how ion beams are used to aggregate metals and semiconductors into nanoclusters with nonlinear optical properties Addresses current challenges in building equipment needed to produce nanostructures in an industrial setting Examines the combination of ion-beam techniques, particularly with physical vapor deposition Delineates the fabrication of nanopillars, nanoflowers, and interconnected nanochannels in three dimensions by using atomic shadowing techniques Illustrates the production of nanopores of varying dimensions in polymer films, alloys, and superconductors using ion-beam irradiation Shows how fingerprints can be made more reliable as forensic evidence by recoil-mixing them into the substrate using ion beams From the basics of the ion-beam modification of materials to state-of-the-art applications, Engineering Th
Fundamentals of Ion-Irradiated Polymers
Author: Dietmar Fink
language: en
Publisher: Springer Science & Business Media
Release Date: 2013-03-14
Presented in two parts, this first comprehensive overview addresses all aspects of energetic ion irradiation of polymers. Earlier publications and review articles concentrated on selected topics only. And the need for such a work has grown with the dramatic increase of research and applications, such as in photoresists, waveguides, and medical dosimetry, during the last decade. The first part, Fundamentals of Ion-Irradiated Polymers, covers the physical, chemical and instrumental fundamentals; treats the specific irradiation mechanisms of low- and high-energy ions (including similarities and differences); and details the potential for future technological application. All the new findings are carefully analyzed and presented in a systematic way, while open questions are identified. The second volume, Transport Processes in Ion-Irradiated Polymers, deals with transport processes in both unirradiated and irradiated polymers. As both a review and a stimulus, this work seeks to contribute substantially to the literature and advancement of polymeric devices, from both the low- and high-energy regimes.