Written in EnglishRead online
Includes bibliographical references and index.
|LC Classifications||QC661 .H28 1990|
|The Physical Object|
|Pagination||xiii, 297 p. :|
|Number of Pages||297|
|LC Control Number||90000909|
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The Generalized Multipole Technique for Computational Electromagnetics (Artech House Antenna Library) by Christian Hafner (Author) › Visit Amazon's Christian Hafner Page.
Find all the books, read about the author, and more. See search results for this author. Are you an author. Cited by: The Generalized Multipole Technique Computational Electromagnetics.
The generalized multipole technique is an advanced boundary method for computational electromagnetics and optics. Its. The Generalized Multipole Technique for Computational Electromagnetics by Christian Hafner,available at Book Depository with free delivery : Christian Hafner.
This book is an edited volume of nine papers covering the different variants of the generalized multipole techniques (GMT). The papers were presented at the recent 3rd Workshop on Electromagnetics and Light Scattering - Theory and Applications, which focused on current GMT methods.
The Generalized Multipole Technique for Computational Electromagnetics Antenna Library Artech House antenna library The Artech House Microwave Library: Author: Christian Hafner: Edition: illustrated: Publisher: Artech House, ISBN:Length: pages: Subjects.
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The Generalized Multipole Technique for Computational Electromagnetics 作者: Hafner, Christian 出版年: 页数: 定价: $ ISBN: 豆瓣评分Author: Hafner, Christian. Hafner, The Generalized Multipole Technique for Computational Electromagnetics (Artech, Norwood, MA, ).
 C. Hafner, 2-D MMP: Two-Dimensional Multiple Multi- pole Analysis Software and Users Manual (Artech, Norwood, MA, ).Cited by: N.
Talebi and M. Shahabadi, "Application of Generalized Multipole Technique to the Analysis of Discontinuities in Substrate Integrated Waveguides," Progress In. computational electrodynamics Download computational electrodynamics or read online books in PDF, EPUB, Tuebl, and Mobi Format.
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The generalized multipole technique for computational electromagnetics. [Christian Hafner]. The Generalized Multipole Technique is a surface-based method to find the solution of a boundary-value problem for a given differential equation by expanding the fields in terms of fundamental or other singular solutions of this equation.
Chapter 2. Review of the Generalized Multipole Technique Literature by T. Wriedt 5 Point matching method 6 Extended boundary condition method (EBCM) 7 Multiple multipole method (MMP) 8 Yasuura's methods 10 Discrete sources method (DSM) 11 Method of.
This book presents the Generalized Multipole Technique as a fast and powerful theoretical and computation tool to simulate light scattering by nonspherical particles.
It also demonstrates the considerable potential of the method. In recent years, the concept has been applied in new fields, such as simulation of electron energy loss spectroscopy and has been used to extend other methods, like.
The Generalized Multipole Technique for Light Scattering: Recent Developments (Springer Series on Atomic, Optical, and Plasma Physics Book 99) - Kindle edition by Wriedt, Thomas, Eremin, Yuri.
Download it once and read it on your Kindle device, PC, phones or tablets. Use features generalized multipole technique for computational electromagnetics book bookmarks, note taking and highlighting while reading The Generalized Multipole Technique for Light Scattering Manufacturer: Springer.
This is a new 2-D version of the MMP technique with a wide range of application including statics, scattering, gratings, antennae, guided waves, resonators and discontinuities.
The full version is: Christian Hafner: MaX-1, A Visual Electromagnetics Platdform for PC's. CD-ROM and Getting Started with MaX-1 Guide. Wiley, Chichester, Improving the Numerical Efficiency of Generalized Multipole Technique by Non-redundant Multipole Choices A.K.
Bandyopadhyay, C. Tomassoni à, M. Mongiardo à and A.S. Omar. Kiewidt L., Karamehmedović M. () The Generalized Multipole Technique for the Simulation of Low-Loss Electron Energy Loss Spectroscopy. In: Wriedt T., Eremin Y.
(eds) The Generalized Multipole Technique for Light Scattering. Springer Series on Atomic, Optical, and Plasma Physics, vol Springer, Cham. First Online 10 March Author: Lars Kiewidt, Lars Kiewidt, Mirza Karamehmedović.
In The Generalized Multipole Technique for Light Scattering, edited by Wriedt, Thomas and Eremin, Yuri, vol. 99, pp.Cham: Springer, DOI: /_6 Research Collection.
include Generalized Multipole Technique (GTM), Transmission line matrix method (TLM) and modal methods (MM) to name a few. The computational hierarchy of these methods is depicted in Figure CEM practitioners in the recent days are aiming to use existing software packages to solve a particular problem as early as possible.
Attraction Poles research project P5/34 (Computational electromagnetics for elec-trical power applications and interactions with information technology devices), in the frame of which this work has been carried out.
I also thank Professor J. Destin´e (University of Li`ege), Professor L. Dupr´e (Ghent. Get this from a library. Generalized multipole techniques for electromagnetic and light scattering.
[Thomas Wriedt;] -- This book is an edited volume of nine papers covering the different variants of the generalized multipole techniques (GMT). The papers were presented at the recent 3rd Workshop on Electromagnetics. Computational Electromagnetics for RF and Microwave Engineering This hands-on introduction to computational electromagnetics (CEM) links theoretical Computational Electromagnetics for RF and Microwave Engineering, Second Edition David B.
Davidson The generalized multipole technique (GMT) 17 The CEM modelling process Computational Electromagnetics Electromagnetics for Electromagnetic Compatibility/ Signal Integrity Analysis Li Er-Ping, PhD, IEEE Fellow Advanced Electromagnetics and Electronic Systems Lab. A*STAR, Institute of High Performance Computing (IHPC) National University of Singapore.
[email protected] IEEE EMC DL Talk Missouri Uni. Uni of ST File Size: 2MB. The Multilevel Fast Multipole Algorithm (MLFMA) for Solving Large-Scale Computational Electromagnetic Problems provides a detailed and instructional overview of implementing MLFMA.
The book: * Presents a comprehensive treatment of the MLFMA algorithm, including basic linear algebra concepts, recent developments on the parallel computation, and a number of application examples * Covers.
Generalized Moment Methods in Electromagnetics Johnson J. Wang, John Wiley & Sons The Generalized Multipole Technique for Computational Electromagnetics Christian Hafner, Artech House, The Generalized Multipole Technique for Electromagnetic and Light Scattering T.
Wriedt (Editor), Amterdam: Elsevier, Geometrical Theory of. As computers became more efficient in crunching big numbers and handling complex algorithms, they contributed massively to the further development of this domain.
This was the beginning of a new domain of research, namely, computational electromagnetics (CEM), which brought sophisticated algorithms and tools to the world of modeling and by: 4. Sign in to like videos, comment, and subscribe. Sign in. Watch Queue Queue. Olyslager et al. / Journal of Computational and Applied Mathematics () – the Galerkin MoM on which we apply the MLFMA.
Finally, we use this technique, to illustrate the scattering by a so-called negative index material that is artiﬁcially constructed by a complex wire conﬁguration embedded in a host medium. Computational Electromagnetics • The evaluation of electric and magnetic fields in an electromagnetic system is of utmost importance.
• Depending on the nature of the electromagnetic system, Laplace or Poisson equation may be suitable to model the. Computational Electromagnetics. The Electromagnetics Research Group staff are experienced at formulating, implementing, and applying advanced Computational Electromagnetics (CEM) methods to challenging problems in the general areas of scattering, antenna design and characterization, microwave cavity design and characterization, and microwave circuits.
Computational electromagnetics (CEM), computational electrodynamics or electromagnetic modeling is the process of modeling the interaction of electromagnetic fields with physical objects and the environment.
It typically involves using computationally efficient approximations to Maxwell's equations and is used to calculate antenna performance, electromagnetic compatibility, radar cross. 'This is a truly unique book that covers a variety of computational methods for several important physical (electromagnetics) problems in a rigorous manner with a great depth.
It will benefit not only computational mathematicians, but also physicists and electrical engineers interested in numerical analysis of electrostatic, electrodynamic, and Cited by: Book Series Title.
Advances in Electrical and Electronic Engineering Book Series. 4 Published. Format. Hardback Description. The art of time domain (TD) computational electromagnetics has grown significantly in the last decade, primarily due to the availability of highly powerful computer resources.
However, there has so far been a lack of. The aim of this book is to provide an introduction to computational electromagnetics (CEM) with a focus on the most popular techniques used in contemporary research and development projects.
The focus is on the solution of Maxwell’s equations by means of ﬁnite diﬀerence methods, the ﬁnite element method (FEM), and the method of moments. Born on March 3, as a citizen of Winterthur (Switzerland), he was a student at the Department of Electrical Engineering of ETH.
In he got his PhD under the direction of Prof. Baggenstos at the IFH with a proposition of a new method for computational electromagnetics, the Multiple Multipole Program (MMP). I am still not aware of a truly comprehensive textbook on the topic of computational electro-magnetics.
If you ﬁnd a good book, please let me know. The book by Sadiku  certainly treats most of the classical topics covered in this class, but sometimes the treatment is a bit sketchy.
For the FDTD method, the book by Taﬂove, et. al.,File Size: KB. undergraduate course on computational electromagnetics. In fact, this book is based on the material developed for and used in an undergraduate CEM course at Chalmers University of Technology, G¨oteborg, Sweden.
The prereq-uisites for a course based File Size: 3MB. The Multilevel Fast Multipole Algorithm (MLFMA) for Solving Large-Scale Computational Electromagnetic Problems provides a detailed and instructional overview of implementing MLFMA.
The book: Presents a comprehensive treatment of the MLFMA algorithm, including basic linear algebra concepts, recent developments on the parallel computation, and a number of application examples Covers solutions of. The generalized multipole technique (GMT) 17 The CEM modelling process 17 Veriﬁcation and validation 19 An example: a frequency selective surface 20 Convergence and extrapolation 23 Extending the limits of full-wave CEM methods 24 CEM: the future 25 A “road map” of this book 28 References.
Computational Electromagnetics News Staff Teaching Research Theory of electromagnetic fields Electromagnetic Compatibility (EMC) Computational Electromagnetics New approaches for the bio-magnetic problem (DFG - SFB ).This paper presents an overview of recently developed techniques that improve the efficiency of the method-of-moments (MM) solution of electromagnetic radiation and scattering problems and thus allow it to be applied to electrically larger bodies.
The techniques reviewed include fast iterative.Computational Electromagnetics is a young and growing discipline, expanding as a result of the steadily increasing demand for software for the design and analysis of electrical devices. This book introduces three of the most popular numerical methods for simulating electromagnetic fields: theFile Size: KB.