Entire-domain, spectral basis functions (BFs) have witnessed recent interest in the integral-equation analysis of large metasurface (MS) antennas modeled via homogenized impedance boundary conditions. We present a formulation employing classical Galerkin test via Rao-Wilton-Glisson functions yet assembled to represent entire-domain div-conforming BFs for the shape of interest (e.g., circular/coaxial waveguide modes). On the one hand, the rationale is that entire-domain, spectral BFs afford a significant economy in the number of necessary unknowns; on the other hand, being expressed as combination of Rao-Wilton-Glisson functions, reaction integrals are computed with optimum cost via fast methods. This is applied to reduce the cost of the opt...
This paper presents an efficient approach for the method of moments (MoM) analysis of metasurface (M...
Metasurfaces (MTS) offer an innovative way for the generation and manipulation of electromagnetic (E...
International audienceThis chapter reports design and analysis methods for planar antennas based on ...
A family of orthogonal and entire-domain basis functions (named Fourier-Bessel) is proposed for the ...
International audienceA family of orthogonal and entire-domain basis functions (named Fourier-Bessel...
This paper offers an efficient numerical approach to optimizing the design of large circular planar ...
A full-wave synthesis algorithm for modulated metasurface antennas is presented. It is able to provi...
An approach based on the method of moments and using a set of stretched Fourier-Bessel basis functio...
A new approach is presented for synthesizing modulated metasurface (MTS) antennas (MoMetAs) with arb...
This paper presents a novel type of basis functions, whose spectral-and space-domain properties can ...
International audienceMetasurfaces are thin (2D) metamaterials designed for manipulating the dispers...
An efficient method of moments (MoM) scheme is presented for the analysis of planar, possibly cascad...
This paper presents an efficient approach for the method of moments (MoM) analysis of metasurface (M...
Metasurfaces (MTS) offer an innovative way for the generation and manipulation of electromagnetic (E...
International audienceThis chapter reports design and analysis methods for planar antennas based on ...
A family of orthogonal and entire-domain basis functions (named Fourier-Bessel) is proposed for the ...
International audienceA family of orthogonal and entire-domain basis functions (named Fourier-Bessel...
This paper offers an efficient numerical approach to optimizing the design of large circular planar ...
A full-wave synthesis algorithm for modulated metasurface antennas is presented. It is able to provi...
An approach based on the method of moments and using a set of stretched Fourier-Bessel basis functio...
A new approach is presented for synthesizing modulated metasurface (MTS) antennas (MoMetAs) with arb...
This paper presents a novel type of basis functions, whose spectral-and space-domain properties can ...
International audienceMetasurfaces are thin (2D) metamaterials designed for manipulating the dispers...
An efficient method of moments (MoM) scheme is presented for the analysis of planar, possibly cascad...
This paper presents an efficient approach for the method of moments (MoM) analysis of metasurface (M...
Metasurfaces (MTS) offer an innovative way for the generation and manipulation of electromagnetic (E...
International audienceThis chapter reports design and analysis methods for planar antennas based on ...