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Time Domain Methods in Electrodynamics

A Tribute to Wolfgang J. R. Hoefer

  • Conference proceedings
  • © 2008

Overview

Editors:
  1. Peter Russer

    1. TU München Fak. Elektro- und Informationstechnik LS Hochfrequenztechnik, Germany

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  2. Uwe Siart

    1. TU München Fak. Elektro- und Informationstechnik LS Hochfrequenztechnik, Germany

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    You can also search for this editor in PubMed   Google Scholar

  • Best Contribution to the Symposium and Technical Exhibition on Electromagnetic Compatibility
  • Includes supplementary material: sn.pub/extras

Part of the book series: Springer Proceedings in Physics (SPPHY, volume 121)

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Table of contents (24 papers)

  1. Front Matter

    Pages I-XXI
    Download chapter PDF

  2. In Search of the Intangible – 43 Years of Research in Electromagnetics

    • Wolfgang J.R. Hoefer
    Pages 1-18

  3. Full-Wave Simulation of Integrated Circuit Packages on a Parallel Architecture

    • Erion Gjonaj, Andreas Barchanski, Peter Thoma, Thomas Weiland
    Pages 19-29

  4. Recent Progress in Unifying the Time- and Frequency-Domain Methods

    • Zhizhang (David) Chen, Michel M. Ney
    Pages 31-39

  5. Time-Domain Neural Network Approaches to EM Modeling of Microwave Components

    • Qi-Jun Zhang, Yi Cao
    Pages 41-53

  6. Modeling of Curved Boundaries in the Finite-Difference Time-Domain Method using a Lagrangian Approach

    • Johannes A. Russer, Prasad S. Sumant, Andreas C. Cangellaris
    Pages 55-67

  7. Computing the Transmission Line Parameters of an On-chip Multiconductor Digital Bus

    • Hristomir Yordanov, Peter Russer
    Pages 69-78

  8. Two Decades of SCN Modelling and Beyond

    • Poman So, P. Eng.
    Pages 79-90

  9. Calculation of Instantaneous Power and Energy Quantities in TLM Simulations

    • John Paul, Christos Christopoulos, David W.P. Thomas
    Pages 91-104

  10. The Combined Schrödinger-Maxwell Problem in the Electronic/Electromagnetic Characterization of Nanodevices

    • Luca Pierantoni, Davide Mencarelli, Tullio Rozzi
    Pages 105-133

  11. Recent Advances in the Combination of the Unscented Transform (UT) with the Transmission Line Modeling Method (TLM)

    • Leonardo R.A.X de Menezes, Ajibola Ajayi, Christos Christopoulos, Phillip Sewell, Geovany A. Borges
    Pages 135-145

  12. Bandwidth Optimization using Transmission Line Matrix Modeling and System Identification

    • Nikolaus Fichtner, Uwe Siart, Yury Kuznetsov, Andrey Baev, Peter Russer
    Pages 147-171

  13. Study of Single and Dual Band Wearable Metallic Button Antennas for Personal Area Networks (PANs)

    • Benito Sanz-Izquierdo, Fengxi Huang, John C. Batchelor, Mohammed I. Sobhy
    Pages 173-187

  14. Fast and Efficient Methods for Circuit-based Automotive EMC Simulation

    • Martin L. Zitzmann, Robert Weigel
    Pages 189-210

  15. Equivalent Circuit (EC) FDTD Method for Dispersive Materials: Derivation, Stability Criteria and Application Examples

    • A. Rennings, A. Lauer, C. Caloz, I. Wolff
    Pages 211-238

  16. A 3D Isotropic Left-Handed Metamaterial Based on the Rotated TLM Scheme

    • M. Zedler, C. Caloz, P. Russer
    Pages 239-262

  17. Connection Subnetworks for the Transmission Line Matrix (TLM) Method

    • Petr Lorenz, Peter Russer
    Pages 263-281

  18. RFID

    • Li Yang, Amin Rida, Anya Traille, Manos M. Tentzeris
    Pages 283-301

  19. Numerical Modeling of Car Antennas

    • Stefan Lindenmeier, Joachim Brose
    Pages 303-319

  20. Time-Domain Modelling of Group-Delay and Amplitude Characteristics in Ultra-Wideband Printed-Circuit Antennas

    • Hung-Jui Lam, Yinying Lu, Huilian Du, Poman P.M. So, Jens Bornemann
    Pages 321-331
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Keywords

About this book

This book consists of contributions given in honor of Wolfgang J.R. Hoefer. Space and time discretizing time domain methods for electromagnetic full-wave simulation have emerged as key numerical methods in computational electromagnetics. Time domain methods are versatile and can be applied to the solution of a wide range of electromagnetic field problems. Computing the response of an electromagnetic structure to an impulsive excitation localized in space and time provides a comprehensive characterization of the electromagnetic properties of the structure in a wide frequency range. The most important methods are the Finite Difference Time Domain (FDTD) and the Transmission Line Matrix (TLM) methods.

The contributions represent the state of the art in dealing with time domain methods in modern engineering electrodynamics for electromagnetic modeling in general, the Transmission Line Matrix (TLM) method, the application of network concepts to electromagnetic field modeling, circuit and system applications and, finally, with broadband devices, systems and measurement techniques.

Editors and Affiliations

  • TU München Fak. Elektro- und Informationstechnik LS Hochfrequenztechnik, Germany

    Peter Russer, Uwe Siart

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