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Electromagnetic waves --- Scattering. --- Scattering (Physics)
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Neutrons --- X-rays --- Scattering. --- X-ray scattering --- Scattering (Physics) --- Nucleon-nucleon scattering --- Potential scattering
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Small angle solution scattering is now often applied to biological problems. When applied in appropriate circumstances with carefully structured questions, the technique can provide unique information not available from other techniques. This book offers understanding of the experiments with a simple and intuitive approach to the underlying theory.
Biology --- Small-angle scattering. --- Technique.
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Computational Methods for Electromagnetic Inverse Scattering Xudong Chen, National University of Singapore, Singapore This book offers a comprehensive and updated overview of the theory, algorithms and applications of electromagnetic inverse scattering problems. Fundamental theories including mathematical derivation and physical insights of both forward and inverse electromagnetic scattering will be emphasized, and 2-dimentional and 3-dimensional problems covered. Readers will be introduced to reconstruction algorithms for both small-size and large-size scatterers, as well as qualitative and quantitative reconstruction algorithms. Inverse scattering taking into account different boundary conditions are also discussed before imaging resolution and applications are tackled from a new perspective. . Offers important advances in electromagnetic inverse scattering grounded in fundamental theory, algorithms and practical engineering applications. Covers the latest, most relevant inverse scattering techniques like signal subspace methods, time reversal, linear sampling, qualitative methods, compressive sensing, and noniterative methods. Emphasizes theory, mathematical derivation and physical insights of various inverse scattering problems Written by a leading expert in the field, Numerical Methods for Electromagnetic Inverse Scattering is an essential reference for researchers in electrical engineering, physics and applied mathematics. Graduate students and practicing engineers specializing in areas like remote sensing, military surveillance, biomedical diagnosis, nondestructive testing/evaluation, and oil exploration would also find it an insightful guide.
Electromagnetic waves --- Scattering (Physics) --- Scattering --- Mathematical models. --- Mathematics --- Inverse scattering transform. --- Mathematics.
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Reasoned and based on the difference between discovery and invention, according to the traditional conception, science can be distinguished between basic science and applied science. Nevertheless, we know that the sciences are inseparable. A century or more ago, Louis Pasteur said ""there is no applied science, there are applications of science."" With this assertion, he establishes the logic of complementarity between them. Science certainly goes beyond its own material application and brings us to issues that have intrigued humanity for a long time. During the many years that we have been working with techniques of material characterization, we observed that this complementarity was not always understood by the researchers. In line with the reasoning that the technique joined with science generates technology, the application of techniques that use x-ray and neutron sources seems to us of fundamental importance for the development of technology. In this way, we present in this book how the existing technology of material characterization can contribute to science and applied technology. The authors who contributed with this book sought to show the importance of applying the existing techniques in the development of their works.
Diffraction. --- Small-angle scattering. --- Low-angle scattering --- Scattering, Low-angle --- Scattering, Small-angle --- Scattering (Physics) --- Light --- Optics --- Physical Sciences --- Engineering and Technology --- Optical Physics --- Physics --- Optics and Lasers
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Electromagnetic waves --- Sound-waves --- Scattering --- Vibration --- Waves
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Scattering of light by light is a fundamental process arising at the quantum level through vacuum fluctuations. This short book will explain how, remarkably enough, this quantum process can entirely be described in terms of classical quantities. This description is derived from general principles, such as causality, unitarity, Lorentz, and gauge symmetries. The reader will be introduced to a rigorous formulation of these fundamental concepts, as well as their physical interpretation and applications.
Light --- Physics. --- SCIENCE / Physics / General. --- Scattering.
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Light ions. --- Scattering cross sections. --- Extraterrestrial radiation.
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This book introduces the basics of light scattering and then presents theoretical methods and applications of elastic light scattering spectrometry in the field of analytical chemistry. Different elastic light scattering probes and how to use elastic light scattering probes for the analysis of inorganic ions, organic molecules, nucleic acids, proteins, biological microparticles, water and the atmospheric environment are discussed in detail.
Spectrum analysis. --- Light --- Scattering. --- Analytical Chemistry. --- Elastic Light Scattering Spectroscopy. --- Spectroscopy.
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