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The first ICXOM congress held in Cambridge was the brain-child of Dr. Ellis Cosslett, founder of the Electron Optics Section of the Cavendish Laboratory. Dr. Cosslett pioneered research in x-ray optics and microanalysis and retained a close interest in all subject applications for this area of research, including physics, materials science, chemistry, and biology. X-Ray Optics and Microanalysis 1992 was held in his memory. At a special symposium, friends and colleagues reviewed the present status of research in x-ray optics and microanalysis. S.J. Pennycook of Oak Ridge National Laboratory, D.B. Williams of Lehigh University, J.A. Venables et al. of Arizona State University and Sussex University, and C. Jacobsen et al. of SUNY, Stony Brook are among the researchers whose papers are included in this volume.
The first ICXOM congress held in Cambridge was the brain-child of Dr. Ellis Cosslett, founder of the Electron Optics Section of the Cavendish Laboratory. Dr. Cosslett pioneered research in x-ray optics and microanalysis and retained a close interest in all subject applications for this area of research, including physics, materials science, chemistry, and biology. X-Ray Optics and Microanalysis 1992 was held in his memory. At a special symposium, friends and colleagues reviewed the present status of research in x-ray optics and microanalysis. S.J. Pennycook of Oak Ridge National Laboratory, D.B. Williams of Lehigh University, J.A. Venables et al. of Arizona State University and Sussex University, and C. Jacobsen et al. of SUNY, Stony Brook are among the researchers whose papers are included in this volume.
The first ICXOM congress held in Cambridge was the brain-child of Dr. Ellis Cosslett, founder of the Electron Optics Section of the Cavendish Laboratory. Dr. Cosslett pioneered research in x-ray optics and microanalysis and retained a close interest in all subject applications for this area of research, including physics, materials science, chemistry, and biology. X-Ray Optics and Microanalysis 1992 was held in his memory. At a special symposium, friends and colleagues reviewed the present status of research in x-ray optics and microanalysis. S.J. Pennycook of Oak Ridge National Laboratory, D.B. Williams of Lehigh University, J.A. Venables et al. of Arizona State University and Sussex University, and C. Jacobsen et al. of SUNY, Stony Brook are among the researchers whose papers are included in this volume.
There is growing interest in light metallic alloys for a wide number of applications owing to their processing efficiency, processability, long service life, and environmental sustainability. Aluminum, magnesium, and titanium alloys are addressed in this Special Issue, however, the predominant role played by aluminum. The collection of papers published here covers a wide range of topics that generally characterize the performance of the alloys after manufacturing by conventional and innovative processing routes.
* A special volume devoted principally to therole of the late Sir Charles Oatley in the development of the scanning electron microscopeings* It contains historical articles and reminiscences by most of the scientists who have worked on the scanning electron microscope in Oatley's laboratory * Emphasizes broad and in depth article collaborations between world-renowned scientists in the field of image and electron physicsAlthough the scanning electron microscope had a prehistory in Germany and the USA, its real champion was Charles Oatley, who launched his projectin the Cambridge University Engineering Department shortly after the end of World War II. A first microscope was built successfully by D. McMullan, oneof the Guest Editors of this volume and a succession of progressively improved instruments followed. One in particular, built by K.C.A. Smith was commissioned specially for the Canadian Pulp and Paper Research Institute for use in their Montreal laboratories. All these efforts culminated in the commercial model built by the Cambridge Instrument Company and marketed in 1965 under the trade name, Stereoscan.Although this story has been told on several occasions, in particular in these Advances, it seemed appropriate, in the centenary year of the birth of Sir Charles Oatley, that more details should be published to celebrate these achievements. This volume is the result. It contains not only historical articles and reminiscences by most of the scientists who have worked on the scanning electron microscope in Oatley's laboratory but also full or partial reproductions of many of the key publications, beginning with McMullan's early paper of 1953 and including Oatley's own "Early history of the scanning electron microscope" (1982). A website has been created, in which supplementary material is collected.This volume is a tribute to a bold pioneering scientist and a vivid record of the creation of the first commercial scanning electron microscopes and of subsequent developments. * A special volume devoted principally to therole of the late Sir Charles Oatley in the development of the scanning electron microscopeings* It contains historical articles and reminiscences by most of the scientists who have worked on the scanning electron microscope in Oatley's laboratory* Emphasizes broad and in depth article collaborations between world-renowned scientists in the field of image and electron physics
This publication presents fascinating new findings on ancient Romano-Egyptian funerary portraits preserved in international collections. Once interred with mummified remains, nearly a thousand funerary portraits from Roman Egypt survive today in museums around the world, bringing viewers face-to-face with people who lived two thousand years ago. Until recently, few of these paintings had undergone in-depth study to determine by whom they were made and how. An international collaboration known as APPEAR (Ancient Panel Paintings: Examination, Analysis, and Research) was launched in 2013 to promote the study of these objects and to gather scientific and historical findings into a shared database. The first phase of the project was marked with a two-day conference at the Getty Villa. Conservators, scientists, and curators presented new research on topics such as provenance and collecting, comparisons of works across institutions, and scientific studies of pigments, binders, and supports. The papers and posters from the conference are collected in this publication, which offers the most up-to-date information available about these fascinating remnants of the ancient world. The free online edition of this open-access publication is available at www.getty.edu/publications/mummyportraits/ and includes zoomable illustrations and graphs. Also available are free PDF, EPUB, and Kindle/MOBI downloads of the book.
This text is a companion volume to Transmission Electron Microscopy: A Textbook for Materials Science by Williams and Carter. The aim is to extend the discussion of certain topics that are either rapidly changing at this time or that would benefit from more detailed discussion than space allowed in the primary text. World-renowned researchers have contributed chapters in their area of expertise, and the editors have carefully prepared these chapters to provide a uniform tone and treatment for this exciting material. The book features an unparalleled collection of color figures showcasing the quality and variety of chemical data that can be obtained from today’s instruments, as well as key pitfalls to avoid. As with the previous TEM text, each chapter contains two sets of questions, one for self assessment and a second more suitable for homework assignments. Throughout the book, the style follows that of Williams & Carter even when the subject matter becomes challenging—the aim is always to make the topic understandable by first-year graduate students and others who are working in the field of Materials Science Topics covered include sources, in-situ experiments, electron diffraction, Digital Micrograph, waves and holography, focal-series reconstruction and direct methods, STEM and tomography, energy-filtered TEM (EFTEM) imaging, and spectrum imaging. The range and depth of material makes this companion volume essential reading for the budding microscopist and a key reference for practicing researchers using these and related techniques.