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Pommerenke, David
Graz University of Technology
in Cooperation with on an Cooperation-Score of 37%
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Publications (10/10 displayed)
- 2023On the Difficulties to Determine the Intrinsic Material Parameters for MnZn Ferritescitations
- 2023The distribution of discharge amplitudes of randomly colliding charged spherescitations
- 2023A Method to Determine the Permittivity of Anisotropic Thin Sheet Absorber Materials
- 2018Characterization of relative complex permittivity and permeability for magneto-dielectric sheetscitations
- 2018Measurement of Dielectric Constant and Cross-Sectional Variations of a Wirecitations
- 2018Common-mode impedance of a ferrite toroid on a cable harness
- 2012Nonlinear capacitors for ESD protectioncitations
- 2011Rapid rotary scanner and portable coherent wideband Q-band transceiver for high-resolution millimeter-wave imaging applicationscitations
- 2002Efficient FDTD simulation of fields in coaxial cables with multi-layered insulation partially formed by dispersive layers of extremely high permittivitycitations
- 2000Broadband measurement of the conductivity and the permittivity of semiconducting materials in high voltage XLPE cables
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document
Efficient FDTD simulation of fields in coaxial cables with multi-layered insulation partially formed by dispersive layers of extremely high permittivity
Abstract
<p>An efficient and accurate FDTD simulation technique for investigation of field propagation in multi-layered coaxial cables has been developed. This technique combines a uniform FDTD scheme with the piecewise linear recursive convolution method, which is applied for the treatment of fields in dispersive layers, having extremely high permittivity. The method has been developed and tested for a radial symmetric cylindrical system and is intended for future use in 3D applications.</p>