computational electromagnetics, coplanar waveguides, damascene technology, discontinuities, electromagnetic field, electromagnetic field theory, exact full-wave modelling, homogeneous coplanar waveguide structures, hybrid time-frequency technique, hybrid TLM-MM approach, MMIC, MMIC design, mode matching, mode matching method, planar circuit design, skin depth, skin effect, S-parameters, time-frequency analysis, transmission line matrix method, transmission line matrix methods, transmission structures, waveguide discontinuities, waveguide theory
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computational electromagnetics, coplanar waveguides, damascene technology, discontinuities, electromagnetic field, electromagnetic field theory, exact full-wave modelling, homogeneous coplanar waveguide structures, hybrid time-frequency technique, hybrid TLM-MM approach, MMIC, MMIC design, mode matching, mode matching method, planar circuit design, skin depth, skin effect, S-parameters, time-frequency analysis, transmission line matrix method, transmission line matrix methods, transmission struc...
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