ID: 442
/ PD-M2: 1
Topics: Nano-Electromagnetic Computation, Optimization and Design, Mathematical Modelling and Formulations, Numerical Techniques, Material ModellingKeywords: Conductivity modulation; double-exponential pulse; electric field uniformity; FDTD.
FDTD Implementation for Double-Exponential Pulse Propagation in Cylindrical Insulator with Conductivity Modulation
Minyu Mao, Jinghui Shao, Jiawei Wang, Xikui Ma
State Key Laboratory of Electrical Insulation and Power Equipment, School of Electrical Engineering Xi’an Jiaotong University, Xi’an China
ID: 280
/ PD-M2: 2
Topics: Electromagnetic Compatibility, Material ModellingKeywords: EMI filters, ferrimagnetic materials, Kramers-Kronig relation, SMT components
Broadband Modeling and Simulation of DC-Biased SMT Components in EMI Filters
Christian Riener1,2, Thomas Bauernfeind2,1, Samuel Kvasnicka1,2, Klaus Roppert2,1, Manfred Kaltenbacher2,1
1Silicon Austria Labs, TU-Graz SAL GEMC Lab, Austria; 2Institute of Fundamentals and Theory in Electrical Engineering, Graz University of Technology, Graz, Austria
ID: 527
/ PD-M2: 3
Topics: Wave Propagation, Numerical TechniquesKeywords: Finite difference methods, Maxwell equations, Numerical stability, Partial differential equations
Magnetically Implicit Single-Field FDTD Formulation Based on the Newmark-Beta Method
Kazuhiro Fujita
Saitama Institute of Technology, Japan
ID: 156
/ PD-M2: 4
Topics: Wave PropagationKeywords: Computational electromagnetics, dielectric structures, FDTD methods, numerical analysis, radar cross section
Path Integral Model for Dielectric Objects in the Two-Dimensional Nonstandard Finite-Difference Time-Domain Method
Tadao Ohtani1, Yasushi Kanai2, Nikolaos V Kantartzis3
1Ashikawa-City; 2Niigata Institute of Technology, Japan; 3Aristotle University of Thessaloniki
ID: 278
/ PD-M2: 5
Topics: Wave PropagationKeywords: Shielding effectiveness, transmission line theory, wave impedance
Impact of near field wave impedance approximation on the estimation of the magnetic shielding effectiveness using Schelkunoff equations
Kokouvi ETSE1,2,3, Xavier MININGER1, Anne-Laure HELBERT2, Laurent Prevond3, Thierry Baudin2
1Paris Saclay University, Laboratoire du Génie Electrique et Electronique de Paris - GeePs; 2Université Paris Saclay, Institut de Chimie Moléculaire et des Matériaux d'Orsay - ICMMO; 3Systèmes et Applications des Technologies de l'Information et de l'Energie - SATIE, Cnam
ID: 141
/ PD-M2: 6
Topics: Wave Propagation, Numerical TechniquesKeywords: Empirical mode decomposition, frequency-domain analysis, finite difference methods, optical vortices
Numerical Analysis of Optical Vortex Generation with Helical Filter using Empirical Mode Decomposition
Ran Dong1, Yuya Kobari1, Yoshihisa Fujita2, Hiroaki Nakamura3, Hideki Kawaguchi4, Soichiro Ikuno1
1Tokyo University of Technology, Japan; 2Ritsumeikan University, Japan; 3National Institute for Fusion Science, Japan; 4Muroran Institute of Technology, Japan
ID: 160
/ PD-M2: 7
Topics: Wave Propagation, Software MethodologyKeywords: Electromagnetic propagation, Ground-wave Propagation, Radio navigation, Parallel algorithms
A Software Framework for the Parallel Computation of Ground Wave Propagation Delay and Attenuation
Niklas Hehenkamp, Filippo Giacomo Rizzi, Lars Grundhöfer, Stefan Gewies
Deutsches Zentrum für Luft- und Raumfahrt, Germany
ID: 236
/ PD-M2: 8
Topics: Wave Propagation, Optimization and DesignKeywords: Dual-polarized, energy harvesting, metasurfaces, particle swarm optimization, radio frequency (RF), wideband
A new Topology of a Wideband and Dual-polarized Metasurface Absorber for RF Energy Harvesting and its Design Optimization
Na Chen, Shiyou Yang
College of Electrical Engineering, Zhejiang University
ID: 349
/ PD-M2: 9
Topics: Wave PropagationKeywords: High frequency electromagnetic field analysis, finite element method, iterative domain decomposition method
Investigation of convergence improvement to speed-up of the high-frequency electromagnetic field analysis solver
Kento Ohnaka, Amane Takei
University of Miyazaki, Japan
ID: 423
/ PD-M2: 10
Topics: Wave PropagationKeywords: Optical vortex, Mode coupling, Millimeter wave propagation, Numerical analysis.
Numerical Investigation of Angular Momentum Coupling of Misaligned Gaussian Beam with Waveguide Mode
Yoshihisa Fujita1, Hiroaki Nakamura2,3, Hideki Kawaguchi4, Shin Kubo5, Soichiro Ikuno6
1Ritsumeikan University, Japan; 2National Institute for Fusion Science; 3Nagoya University; 4Muroran Institute of Technology; 5Chubu University; 6Tokyo University of Technology
ID: 421
/ PD-M2: 11
Topics: Electromagnetic Compatibility, Numerical TechniquesKeywords: electromagnetic compatibility, partial element equivalent circuit, full-wave, isogeometric analysis, splines
A Spline-based Full-Wave Partial Element Equivalent Circuit Method
Maximilian Nolte1, Riccardo Torchio2, Sebastian Schöps1, Jürgen Dölz3, Felix Wolf1, Albert E. Ruehli4
1Computational Electromagnetics Group, Technische Universität Darmstadt, Germany; 2Department of Industrial Engineering, Università degli Studi di Padove, Italy; 3Institute for Numerical Simulation, University of Bonn, Germany; 4Missouri University of Science & Technology, Rolla, MO, United States
ID: 361
/ PD-M2: 12
Topics: Static and Quasi-Static Fields, Electromagnetic CompatibilityKeywords: Concrete core coil, magnetic shielding, numerical simulation, wireless power transfer.
Evaluation of a Novel Concrete Core Coil for Wireless Power Transfer in a Lightweight Autonomous Shuttle Bus Scenario
Myrel Tiemann1, Amelie David1, Djordje Lekic2, Norman Haussmann3, Markus Clemens3, Benedikt Schmuelling1
1Chair of Electric Mobility and Energy Storage Systems, University of Wuppertal, Germany; 2Faculty of Electrical Engineering, University of Banja Luka, Bosnia and Herzegovina; 3Chair of Electromagnetic Theory, University of Wuppertal, Germany
ID: 175
/ PD-M2: 13
Topics: Nano-Electromagnetic ComputationKeywords: Computational modeling, energy harvesting, graphene, rectennas, solar energy
Graphene-Based Micro-Rectenna
URSULA DO CARMO RESENDE, THIAGO HENRIQUE GONÇALVES MELLO, GABRIEL ALEXANDRE ALMEIDA TERRA, SANDRO TRINDADE MORDENTE GONÇALVES
CEFET-MG, Brazil
ID: 335
/ PD-M2: 14
Topics: Wave Propagation, Optimization and Design, Mathematical Modelling and Formulations, Numerical Techniques, AI and Machine Learning TechnologiesKeywords: Microwave devices, radial basis function network, spectral analysis, time domain simulation.
Spectral Analysis of Time Domain Simulations Using a Convoluted Radial Basis Function Network
Rodrigo Silva Rezende, Albert Piwonski, Rolf Schuhmann
Technische Universität Berlin, Germany
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