WE-A4.2P.1: A DC stable, well-conditioned and low-frequency regularized time-domain PMCHWT equation
Van Chien Le, Ghent University, Belgium; Francesco Andriulli, Politecnico di Torino, Italy; Kristof Cools, Ghent University, Belgium
WE-A4.2P.2: Analytic Differential Admittance Operator for Tangential Dipole Illumination of a Dielectric Sphere
Martijn Huynen, Dries Vande Ginste, Daniël De Zutter, Ghent University/imec, Belgium; Vladimir Okhmatovski, University of Manitoba, Canada
WE-A4.2P.4: An Automatic Hierarchical Quasi-Helmholtz Preconditioner for the solution of Realistic Composite Structures via MLFMA
Victor F. Martin, Diego M. Solis, Jose M. Taboada, University of Extremadura, Spain; Francesca Vipiana, Politecnico di Torino, Italy
WE-A4.2P.5: Higher-Order Array Decomposition Method for Arrays with Dielectric Substrates
Magnus Brandt-Møller, TICRA, Denmark; Michael Mattes, Technical University of Denmark, Denmark; Olav Breinbjerg, ElMaReCo, Denmark; Min Zhou, Erik Jørgensen, TICRA, Denmark
WE-A4.2P.6: Modelling of Thick Conducting Wires with Macro Basis Functions
William Dommisse, Matthys Botha, Stellenbosch University, South Africa; Thomas Rylander, Chalmers University of Technology, Sweden
WE-A4.2P.7: Stable Solutions of Transient Electromagnetic Scattering by Penetrable Objects Based on Time-Domain Muller Equations
Ming Yang Ma, Tongji University, China; Ajay K. Poddar, Ulrich L. Rohde, Synergy Microwave Corporation, United States; Mei Song Tong, Tongji University, China
WE-A4.2P.8: An SIE Formulation with Cut-Set Analysis for Impedance Extraction of Real-Life Circuits
Zekun Zhu, Beihang University, China; Ge Li, Beijing Institute of Space Long March Vehicle, China; Shunchuan Yang, Beihang University, China
WE-A4.2P.9: Efficient Numerical Solutions of Electromagnetic Scattering by Bodies of Revolution with Composite Media
Xing Li, Yu Fang, Xiao Jie Lu, Mei Song Tong, Tongji University, China
