Grid design benchmark on sheets with nonzero thickness
Cita com:
hdl:2117/369844
Document typeConference report
Defense date2022
PublisherUniversitat Politècnica de Catalunya. Remote Sensing, Antennas, Microwaves and Superconductivity Group (CommSensLab)
Rights accessOpen Access
Except where otherwise noted, content on this work
is licensed under a Creative Commons license
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Attribution-NonCommercial-NoDerivs 4.0 International
Abstract
The conventional scattering analysis of perfectly conducting sheets ignores the scattering
contribution of the rim. The so-called thin-surface scheme arises from the discretization of the
Electric-field Integral Equation by assuming the sheet thickness to be null. This gives rise to many
less unknowns than the full approach, arising from modelling the whole plate. Although good
accuracy is observed in many practical applications, the thin-plate scattering analysis of thick
enough sheets, especially under oblique incidences, with low grazing angles, exhibits great
inaccuracies. A recent approach, so-called thick-surface, has proved to show similar accuracy as the
full scheme, also in those cases where the thin-surface scheme fails, with moderate computational
effort. In this paper, we show RCS results computed with the thick-surface approach for several
sheets with nonzero thickness where the thin-surface scheme fails. Several types of meshes are
adopted, triangular, quadrangular or hybrid. The required symmetries for the generation of the
meshes are pointed out in each case.
CitationÚbeda Farré, E. [et al.]. Grid design benchmark on sheets with nonzero thickness. A: EIEC 2022. "XIV Iberian Meeting on Computational Electromagnetics". Universitat Politècnica de Catalunya. Remote Sensing, Antennas, Microwaves and Superconductivity Group (CommSensLab), 2022,
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