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Comparison of two novel integral equation approaches for lossy conductor modeling

Martijn Huynen (UGent) , Michiel Gossye, Daniël De Zutter (UGent) , Hendrik Rogier (UGent) and Dries Vande Ginste (UGent)
(2021) 2021 International Conference on Electromagnetics in Advanced Applications (ICEAA). p.230-233
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Abstract
In this paper, we take a closer look at two novel boundary integral equation methods that are ideally suitable for modeling good but lossy conductors. The first method leverages the Calderón identities to precondition the homogeneous Poincaré-Steklov operator for high dielectric contrast materials. The second technique constructs an alternative formulation of the Poincaré-Steklov operator based on the eigenfunctions of the volume that avoids the numerical integration of the Green’s function in the conductive medium. Through numerical examples and performance comparison, the applicability of both single-source methods to model realistic conductors is demonstrated, illustrating their capability in characterizing 3-D interconnects.

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MLA
Huynen, Martijn, et al. “Comparison of Two Novel Integral Equation Approaches for Lossy Conductor Modeling.” 2021 International Conference on Electromagnetics in Advanced Applications (ICEAA), IEEE, 2021, pp. 230–33, doi:10.1109/ICEAA52647.2021.9539758.
APA
Huynen, M., Gossye, M., De Zutter, D., Rogier, H., & Vande Ginste, D. (2021). Comparison of two novel integral equation approaches for lossy conductor modeling. 2021 International Conference on Electromagnetics in Advanced Applications (ICEAA), 230–233. https://doi.org/10.1109/ICEAA52647.2021.9539758
Chicago author-date
Huynen, Martijn, Michiel Gossye, Daniël De Zutter, Hendrik Rogier, and Dries Vande Ginste. 2021. “Comparison of Two Novel Integral Equation Approaches for Lossy Conductor Modeling.” In 2021 International Conference on Electromagnetics in Advanced Applications (ICEAA), 230–33. IEEE. https://doi.org/10.1109/ICEAA52647.2021.9539758.
Chicago author-date (all authors)
Huynen, Martijn, Michiel Gossye, Daniël De Zutter, Hendrik Rogier, and Dries Vande Ginste. 2021. “Comparison of Two Novel Integral Equation Approaches for Lossy Conductor Modeling.” In 2021 International Conference on Electromagnetics in Advanced Applications (ICEAA), 230–233. IEEE. doi:10.1109/ICEAA52647.2021.9539758.
Vancouver
1.
Huynen M, Gossye M, De Zutter D, Rogier H, Vande Ginste D. Comparison of two novel integral equation approaches for lossy conductor modeling. In: 2021 International Conference on Electromagnetics in Advanced Applications (ICEAA). IEEE; 2021. p. 230–3.
IEEE
[1]
M. Huynen, M. Gossye, D. De Zutter, H. Rogier, and D. Vande Ginste, “Comparison of two novel integral equation approaches for lossy conductor modeling,” in 2021 International Conference on Electromagnetics in Advanced Applications (ICEAA), Honolulu, HI, USA, 2021, pp. 230–233.
@inproceedings{8724827,
  abstract     = {{In this paper, we take a closer look at two novel boundary integral equation methods that are ideally suitable for modeling good but lossy conductors. The first method leverages the Calderón identities to precondition the homogeneous Poincaré-Steklov operator for high dielectric contrast materials. The second technique constructs an alternative formulation of the Poincaré-Steklov operator based on the eigenfunctions of the volume that avoids the numerical integration of the Green’s function in the conductive medium. Through numerical examples and performance comparison, the applicability of both single-source methods to model realistic conductors is demonstrated, illustrating their capability in characterizing 3-D interconnects.}},
  author       = {{Huynen, Martijn and Gossye, Michiel and De Zutter, Daniël and Rogier, Hendrik and Vande Ginste, Dries}},
  booktitle    = {{2021 International Conference on Electromagnetics in Advanced Applications (ICEAA)}},
  isbn         = {{9781665413862}},
  language     = {{eng}},
  location     = {{Honolulu, HI, USA}},
  pages        = {{230--233}},
  publisher    = {{IEEE}},
  title        = {{Comparison of two novel integral equation approaches for lossy conductor modeling}},
  url          = {{http://doi.org/10.1109/ICEAA52647.2021.9539758}},
  year         = {{2021}},
}
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