Abstract A full-wave hybrid formulation is proposed for the efficient and accurate modeling of substrate integrated waveguides by rigorously accounting for all possible interactions among elements such as vertical metallic or dielectric posts and coupling or radiating slots. The method is specifically accelerated in order to maximize the efficiency of the analysis of common structures. Its flexibility allows for the study of a large class of devices, possibly in stacked-waveguide configurations, and for the characterization of radiated fields and input port parameters.
International audienceIn this paper, we present a method for the analysis of lossy substrate-integra...
Abstract—The substrate integrated waveguide (SIW) com-prising rectangular via-holes is herein treate...
International audienceIn this paper, we present a method for the analysis of lossy substrate-integra...
International audienceA full-wave hybrid formulation is proposed for the efficient and accurate mode...
International audienceA full-wave hybrid formulation is proposed for the efficient and accurate mode...
International audienceWe propose a fast and accurate full-wave code capable of analyzing electricall...
International audienceWe propose an extension to our hybrid method of moments/mode-matching method r...
International audienceWe propose an extension to our hybrid method of moments/mode-matching method r...
In this paper, we adapt a novel mode-matching and method-of-moments hybrid technique to efficiently ...
In this paper, we adapt a novel mode-matching and method-of-moments hybrid technique to efficiently ...
In this paper, a new method to efficiently analyze substrate integrated waveguide (SIW) based device...
In this paper, a new method to efficiently analyze substrate integrated waveguide (SIW) based device...
Abstract. A mode-matching approach is presented that al-lows a fast and accurate analysis of substra...
A new method is presented in this paper to efficiently analyze substrate integrated waveguide (SIW) ...
In this paper we adapt a novel mode-matching and method of moments hybrid technique to efficiently a...
International audienceIn this paper, we present a method for the analysis of lossy substrate-integra...
Abstract—The substrate integrated waveguide (SIW) com-prising rectangular via-holes is herein treate...
International audienceIn this paper, we present a method for the analysis of lossy substrate-integra...
International audienceA full-wave hybrid formulation is proposed for the efficient and accurate mode...
International audienceA full-wave hybrid formulation is proposed for the efficient and accurate mode...
International audienceWe propose a fast and accurate full-wave code capable of analyzing electricall...
International audienceWe propose an extension to our hybrid method of moments/mode-matching method r...
International audienceWe propose an extension to our hybrid method of moments/mode-matching method r...
In this paper, we adapt a novel mode-matching and method-of-moments hybrid technique to efficiently ...
In this paper, we adapt a novel mode-matching and method-of-moments hybrid technique to efficiently ...
In this paper, a new method to efficiently analyze substrate integrated waveguide (SIW) based device...
In this paper, a new method to efficiently analyze substrate integrated waveguide (SIW) based device...
Abstract. A mode-matching approach is presented that al-lows a fast and accurate analysis of substra...
A new method is presented in this paper to efficiently analyze substrate integrated waveguide (SIW) ...
In this paper we adapt a novel mode-matching and method of moments hybrid technique to efficiently a...
International audienceIn this paper, we present a method for the analysis of lossy substrate-integra...
Abstract—The substrate integrated waveguide (SIW) com-prising rectangular via-holes is herein treate...
International audienceIn this paper, we present a method for the analysis of lossy substrate-integra...