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Volume 27 of Reviews in Mineralogy provides a background to the TEM as a mineralogical tool, to give an introduction to the principles underlying its operation, and to explore mineralogical applications and ways in which electron microscopy can augment our knowledge of mineral structures, chemistry, and origin. Much time will be devoted to mineralogical applications. It provides sufficient information to allow mineralogists and petrologists to have an informed understanding of the data produced by transmission electron microscopy and to have enough knowledge and experience to undertake initial studies on their own. The opening chapters cover the principles of electron microscopy and chemical analysis using the TEM; while the following chapters consider mineralogical, petrological, and geochemical applications and their implications, for both low- and high-temperature geological environments. The Mineralogical Society of America sponsored a short courses in conjunction with their annual meetings with the Geological Society of America, and this volume represents the proceedings of the eighteenth in the sequence. This TEM course was convened October 23-25, 1992, at Hueston Woods State Park, College Comer, Ohio.
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Electron Diffraction in the Transmission Electron Microscope explains the basic methods of how to obtain images and patterns with the TEM, and how to interpret them. The TEMs are used in many labs, and allow users to explore the structure of a specimen of interest (e.g. a section through a particular material, crystal or tissue). This introductory-level guide looks at the patterns produced by diffracted electrons to study the appearance, orientation and structure of the sample. The book discusses useful case studies and examples to guide the new user and offers a user-friendly approach with simple explanations and informative illustrations.
Optics. Quantum optics --- Transmission electron microscopes. --- Electrons --- Diffraction.
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The book "The Transmission Electron Microscope" contains a collection of research articles submitted by engineers and scientists to present an overview of different aspects of TEM from the basic mechanisms and diagnosis to the latest advancements in the field. The book presents descriptions of electron microscopy, models for improved sample sizing and handling, new methods of image projection, and experimental methodologies for nanomaterials studies. The selection of chapters focuses on transmission electron microscopy used in material characterization, with special emphasis on both the theoretical and experimental aspect of modern electron microscopy techniques. I believe that a broad range of readers, such as students, scientists and engineers will benefit from this book.
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This book focuses on in-situ transmission electron microscopy (TEM), an investigatory technique used to observe a sample’s response to a given stimulus (including electron irradiation, thermal excitation, mechanical force, optical excitation, electric and magnetic fields) at the nanoscale in real time. The book introduces readers to the technical strategy behind the in-situ technique and its developments. It reviews the research frontiers of using in-situ TEM in energy conversion and storage, catalysis, nanomaterials synthesis, nanoelectronics, etc. Furthermore, it discusses the future prospects for in-situ TEM. The book offers a valuable guide for all undergraduate and graduate students who are interested in TEM characterization technology. It also serves as a reference source on cutting-edge in-situ techniques for researchers and engineers.
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Diffraction patterns --- Semiconductors --- Transmission electron microscopes. --- Analysis. --- Materials --- Structure
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Diffraction patterns --- Semiconductors --- Transmission electron microscopes. --- Analysis. --- Materials --- Structure --- Analysis.
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Provides an introduction to the fundamental concepts, techniques, and methods used for electron microscopy at high resolution in space, energy, and even in time. This book includes discussions of the theory and practice of image calculations, and applications of HRTEM to the study of solid surfaces, highly disordered materials, and more.
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The Transmission Electron Microscope (TEM) is the ultimate tool to see and measure structures on the nanoscale and to probe their elemental composition and electronic structure with sub-nanometer spatial resolution. Recent technological breakthroughs have revolutionized our understanding of materials via use of the TEM, and it promises to become a significant tool in understanding biological and bio-molecular systems such as viruses and DNA molecules. This book is a practical guide for scientists who need to use the TEM as a tool to answer questions about physical and chemical phenomena on the nanoscale.
Microstructure --- Metrology. --- Transmission electron microscopes. --- Microscopy. --- SCIENCE / Electron Microscopes & Microscopy. --- Measurement.
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Optics. Quantum optics --- Biological microscopy --- Transmission electron microscopes --- MICROSCOPY, ELECTRON --- Maintenance --- Maintenance and repair --- methods --- Microscopy, Electron. --- -Electron microscope, Transmission --- Electron microscopes --- Electron Microscopy --- methods. --- Maintenance and repair. --- -methods. --- Microscopy, Electron --- Electron microscope, Transmission --- Transmission electron microscopes - Maintenance and repair --- Maintenance - methods
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