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Based on the authorOCOs more-than 30 years of experience, this first-of-its-kind volume presents a comprehensive and systematic analysis of electromagnetic fields and their scattering by material objects. The book considers all three categories of scattering environments commonly used for material measurements OCo unbounded regions, waveguides, and cavity resonators. The book covers such essential topics as electromagnetic field propagation, radiation, and scattering, containing mathematically rigorous approaches for the computation of electromagnetic fields and the explanation of their behavior. Moreover, the book explore new measurement techniques for material characterization most of which have never been published before. This detailed reference is packed with over 400 equations.
Book Synopsis Electromagnetic Scattering and Material Characterization by : Abbas Omar
Download or read book Electromagnetic Scattering and Material Characterization written by Abbas Omar and published by Artech House. This book was released on 2011 with total page 314 pages. Available in PDF, EPUB and Kindle. Book excerpt: Based on the authorOCOs more-than 30 years of experience, this first-of-its-kind volume presents a comprehensive and systematic analysis of electromagnetic fields and their scattering by material objects. The book considers all three categories of scattering environments commonly used for material measurements OCo unbounded regions, waveguides, and cavity resonators. The book covers such essential topics as electromagnetic field propagation, radiation, and scattering, containing mathematically rigorous approaches for the computation of electromagnetic fields and the explanation of their behavior. Moreover, the book explore new measurement techniques for material characterization most of which have never been published before. This detailed reference is packed with over 400 equations.
Book Synopsis Transient Electromagnetic Scattering Analysis of Homogeneous Material Bodies by : Ramin Aghajafari
Download or read book Transient Electromagnetic Scattering Analysis of Homogeneous Material Bodies written by Ramin Aghajafari and published by . This book was released on 2006 with total page 105 pages. Available in PDF, EPUB and Kindle. Book excerpt:
This book expands on the subject matter of ’Computational Electromagnetics and Model-Based Inversion: A Modern Paradigm for Eddy-Current Nondestructive Evaluation.’ It includes (a) voxel-based inversion methods, which are generalizations of model-based algorithms; (b) a complete electromagnetic model of advanced composites (and other novel exotic materials), stressing the highly anisotropic nature of these materials, as well as giving a number of applications to nondestructive evaluation; and (c) an up-to-date discussion of stochastic integral equations and propagation-of-uncertainty models in nondestructive evaluation. As such, the book combines research started twenty-five years ago in advanced composites and voxel-based algorithms, but published in scattered journal articles, as well as recent research in stochastic integral equations. All of these areas are of considerable interest to the aerospace, nuclear power, civil infrastructure, materials characterization and biomedical industries. The book covers the topic of computational electromagnetics in eddy-current nondestructive evaluation (NDE) by emphasizing three distinct topics: (a) fundamental mathematical principles of volume-integral equations as a subset of computational electromagnetics, (b) mathematical algorithms applied to signal-processing and inverse scattering problems, and (c) applications of these two topics to problems in which real and model data are used. It is therefore more than an academic exercise and is valuable to users of eddy-current NDE technology in industries as varied as nuclear power, aerospace, materials characterization and biomedical imaging.
Book Synopsis Advanced Electromagnetic Models for Materials Characterization and Nondestructive Evaluation by : Harold A Sabbagh
Download or read book Advanced Electromagnetic Models for Materials Characterization and Nondestructive Evaluation written by Harold A Sabbagh and published by Springer Nature. This book was released on 2021-04-20 with total page 351 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book expands on the subject matter of ’Computational Electromagnetics and Model-Based Inversion: A Modern Paradigm for Eddy-Current Nondestructive Evaluation.’ It includes (a) voxel-based inversion methods, which are generalizations of model-based algorithms; (b) a complete electromagnetic model of advanced composites (and other novel exotic materials), stressing the highly anisotropic nature of these materials, as well as giving a number of applications to nondestructive evaluation; and (c) an up-to-date discussion of stochastic integral equations and propagation-of-uncertainty models in nondestructive evaluation. As such, the book combines research started twenty-five years ago in advanced composites and voxel-based algorithms, but published in scattered journal articles, as well as recent research in stochastic integral equations. All of these areas are of considerable interest to the aerospace, nuclear power, civil infrastructure, materials characterization and biomedical industries. The book covers the topic of computational electromagnetics in eddy-current nondestructive evaluation (NDE) by emphasizing three distinct topics: (a) fundamental mathematical principles of volume-integral equations as a subset of computational electromagnetics, (b) mathematical algorithms applied to signal-processing and inverse scattering problems, and (c) applications of these two topics to problems in which real and model data are used. It is therefore more than an academic exercise and is valuable to users of eddy-current NDE technology in industries as varied as nuclear power, aerospace, materials characterization and biomedical imaging.
Electromagnetic inverse scattering based permittivity profile estimation is one of the most promising techniques for object imaging and material characterization. Electromagnetic scattering tomography at the microwaves and THz frequency range can be used for medical imaging since all parts of the human body are naturally non-magnetic and dielectric, and millimeter and submillimeter waves can penetrate inside dielectrics. However, because electromagnetic inverse scattering problems are ill-conditioned and ill-posed, electromagnetic inverse scattering has not yet been successfully implemented in many potential application areas, particularly in clinical imaging. This dissertation presents a new formulation, a novel concept, and an effective implementation procedure to alleviate these problems and hopefully shorten the gap between the current state-of-the-art and real applications and to improve the electromagnetic inverse scattering technique in general. The major contribution of this dissertation is a new formulation of the electromagnetic inverse scattering problem based on a discrete modal analysis. To do so, the scattered electric field and the volume equivalent current source (VECS) are projected into a subspace spanned by the singular vectors obtained from the spatial Green's function of the near-field scattering tomography system representation. Differentiating between the significant singular values and the less significant one is an important step. The scattered electric field coefficients are bounded and stable, while the VECS coefficients are not stable in the new subspaces since the singular values of the Green's function modal representation start decaying very rapidly beyond a certain threshold. Minimizing the mean square error of the estimated scattered electric field or the estimated permittivity profile is used to find the threshold. The singular vectors below the threshold are considered as the radiating singular vectors, so the VECS projected into the radiating singular vectors are called the radiating VECS, and the contrast factor calculated by the radiating VECS are called the radiating contrast factor. The expected radiating contrast factor is constructed by repeating the measurements at different angles and/or frequencies. Then, the radiating permittivity profile and radiating conductivity profile of the object under-test (OUT) are obtained. In fact, the radiating permittivity profile carries important information about the OUT. The experimental results show that the OUT boundary information is embedded into the radiating permittivity profile, and the boundary of the OUT is effectively determined by using the radiating permittivity profile of region of interest. The second and foremost contribution of this dissertation is proposing a novel approach for solving the electromagnetic inverse scattering problem to make the solution unique by introducing the non-radiating contrast factor and the non-radiating objective function. Decomposing the permittivity into two complementary parts, the radiating permittivity profile and the non-radiating permittivity profile, improves the ill-posedness nature of the electromagnetic inverse scattering problem. Since the radiating permittivity profile is visible, and the non-radiating permittivity profile is invisible from the view point of the outside observer, in the first step, the boundary of the OUT is determined by using the aforementioned radiating permittivity profile obtained from the measurement outside the OUT. Then, the electromagnetic properties of the OUT are estimated - with sufficient accuracy - by minimizing the non-radiating objective function. The electromagnetic properties of the low-contrast and high-contrast OUTs are successfully estimated by the proposed approach, and the approach performance is also verified in a noisy environment through extensive simulations. The third major contribution of this dissertation is the introduction of a new planar near-field scattering tomography (PNFST) system. The PNFST system calibration and operational procedures are discussed. The proposed PNFST system is the first scattering tomography system implemented at the W-band frequency range in free space. Eliminating the multipath effects in the system enable us to make the incident field measurement process fast and quite effective since the field is measured in the absence of the scatterer only once. The PNFST system reconstructs the radiating permittivity profile of the region of interest, determines the boundary of the OUT, characterizes the material, and provides the electromagnetic properties of the low-contrast and high-contrast OUT. The experimental results validate the performance of the implemented PNFST system.
Book Synopsis Near-field Scattering Tomography System for Object Imaging and Material Characterization by : Shahed Shahir
Download or read book Near-field Scattering Tomography System for Object Imaging and Material Characterization written by Shahed Shahir and published by . This book was released on 2015 with total page 115 pages. Available in PDF, EPUB and Kindle. Book excerpt: Electromagnetic inverse scattering based permittivity profile estimation is one of the most promising techniques for object imaging and material characterization. Electromagnetic scattering tomography at the microwaves and THz frequency range can be used for medical imaging since all parts of the human body are naturally non-magnetic and dielectric, and millimeter and submillimeter waves can penetrate inside dielectrics. However, because electromagnetic inverse scattering problems are ill-conditioned and ill-posed, electromagnetic inverse scattering has not yet been successfully implemented in many potential application areas, particularly in clinical imaging. This dissertation presents a new formulation, a novel concept, and an effective implementation procedure to alleviate these problems and hopefully shorten the gap between the current state-of-the-art and real applications and to improve the electromagnetic inverse scattering technique in general. The major contribution of this dissertation is a new formulation of the electromagnetic inverse scattering problem based on a discrete modal analysis. To do so, the scattered electric field and the volume equivalent current source (VECS) are projected into a subspace spanned by the singular vectors obtained from the spatial Green's function of the near-field scattering tomography system representation. Differentiating between the significant singular values and the less significant one is an important step. The scattered electric field coefficients are bounded and stable, while the VECS coefficients are not stable in the new subspaces since the singular values of the Green's function modal representation start decaying very rapidly beyond a certain threshold. Minimizing the mean square error of the estimated scattered electric field or the estimated permittivity profile is used to find the threshold. The singular vectors below the threshold are considered as the radiating singular vectors, so the VECS projected into the radiating singular vectors are called the radiating VECS, and the contrast factor calculated by the radiating VECS are called the radiating contrast factor. The expected radiating contrast factor is constructed by repeating the measurements at different angles and/or frequencies. Then, the radiating permittivity profile and radiating conductivity profile of the object under-test (OUT) are obtained. In fact, the radiating permittivity profile carries important information about the OUT. The experimental results show that the OUT boundary information is embedded into the radiating permittivity profile, and the boundary of the OUT is effectively determined by using the radiating permittivity profile of region of interest. The second and foremost contribution of this dissertation is proposing a novel approach for solving the electromagnetic inverse scattering problem to make the solution unique by introducing the non-radiating contrast factor and the non-radiating objective function. Decomposing the permittivity into two complementary parts, the radiating permittivity profile and the non-radiating permittivity profile, improves the ill-posedness nature of the electromagnetic inverse scattering problem. Since the radiating permittivity profile is visible, and the non-radiating permittivity profile is invisible from the view point of the outside observer, in the first step, the boundary of the OUT is determined by using the aforementioned radiating permittivity profile obtained from the measurement outside the OUT. Then, the electromagnetic properties of the OUT are estimated - with sufficient accuracy - by minimizing the non-radiating objective function. The electromagnetic properties of the low-contrast and high-contrast OUTs are successfully estimated by the proposed approach, and the approach performance is also verified in a noisy environment through extensive simulations. The third major contribution of this dissertation is the introduction of a new planar near-field scattering tomography (PNFST) system. The PNFST system calibration and operational procedures are discussed. The proposed PNFST system is the first scattering tomography system implemented at the W-band frequency range in free space. Eliminating the multipath effects in the system enable us to make the incident field measurement process fast and quite effective since the field is measured in the absence of the scatterer only once. The PNFST system reconstructs the radiating permittivity profile of the region of interest, determines the boundary of the OUT, characterizes the material, and provides the electromagnetic properties of the low-contrast and high-contrast OUT. The experimental results validate the performance of the implemented PNFST system.
Book Synopsis SEM Characterization of the Electromagnetic Scattering from Thin and Thick Open-ended Cylinders by : Gary Bruce Melson
Download or read book SEM Characterization of the Electromagnetic Scattering from Thin and Thick Open-ended Cylinders written by Gary Bruce Melson and published by . This book was released on 1980 with total page 140 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Concepts in Electromagnetic Scattering for Particulate-systems Characterization by :
Download or read book Concepts in Electromagnetic Scattering for Particulate-systems Characterization written by and published by . This book was released on 2013 with total page 234 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Electromagnetic Scattering Analysis of a Three Dimensional Inhomogeneous Material Body Using the Finite Element Method by : Robert Gilman Andre
Download or read book Electromagnetic Scattering Analysis of a Three Dimensional Inhomogeneous Material Body Using the Finite Element Method written by Robert Gilman Andre and published by . This book was released on 1993 with total page 250 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Analysis of the Three-dimensional Electromagnetic Scattering from a Finite Material Strip Joined with a Perfectly Conducting Half-plane by : Joyce A. Fichtner
Download or read book Analysis of the Three-dimensional Electromagnetic Scattering from a Finite Material Strip Joined with a Perfectly Conducting Half-plane written by Joyce A. Fichtner and published by . This book was released on 1991 with total page 168 pages. Available in PDF, EPUB and Kindle. Book excerpt:
A hybrid method that combines the finite element method (FEM) and the boundary element method (BEM) is developed to analyze electromagnetic scattering from arbitrarily shaped material cylinders. By this method, the material cylinder is first enclosed by a fictitious boundary. Maxwell's equations are then solved by FEM inside and by BEM outside the boundary. Electromagnetic scattering from several arbitrarily shaped material cylinders is computed and compared with results obtained by other numerical techniques.
Book Synopsis Electromagnetic Scattering Analysis of Arbitrarily Shaped Material Cylinder by FEM-BEM Method by : M. D. Deshpande
Download or read book Electromagnetic Scattering Analysis of Arbitrarily Shaped Material Cylinder by FEM-BEM Method written by M. D. Deshpande and published by . This book was released on 1996 with total page 38 pages. Available in PDF, EPUB and Kindle. Book excerpt: A hybrid method that combines the finite element method (FEM) and the boundary element method (BEM) is developed to analyze electromagnetic scattering from arbitrarily shaped material cylinders. By this method, the material cylinder is first enclosed by a fictitious boundary. Maxwell's equations are then solved by FEM inside and by BEM outside the boundary. Electromagnetic scattering from several arbitrarily shaped material cylinders is computed and compared with results obtained by other numerical techniques.
Book Synopsis Electromagnetic Material Characterization Using a Partially Filled Rectangular Waveguide by : Andrew Eric Bogle
Download or read book Electromagnetic Material Characterization Using a Partially Filled Rectangular Waveguide written by Andrew Eric Bogle and published by . This book was released on 2004 with total page 234 pages. Available in PDF, EPUB and Kindle. Book excerpt: