Add to ORKGFloquet analysis is applied to study the effects of incident angle on the reflection properties of unit cells. The performance of reflectarray unit cells is evaluated in terms of reflection loss and phase sensitivity. The analysis is demonstrated in three planes of interest, where extremes in performance are likely to occur. Unit cell illuminated by an incident wave with varying angles of arrival is shown to have different coupling conditions and reflection properties. Anomalous phase responses are observed for particular incident angle and polarization of the incident wave. The presented analysis showcases the sensitiveness of the reflectarray element to incident angles
Reflectarray antennas are a potential candidate solution to realize high gains at millimetre waves (...
Reflectarrays combines key features of large reflectors and phased array elements to generate a coll...
International audienceThis paper presents a numerical technique to predict realistic phase responses...
Floquet analysis is applied to study the effects of incident angle on the reflection properties of u...
A theoretical approach to investigate the effects of incidence angle on reflection properties of ref...
A theoretical approach to investigate the effects of incidence angle on reflection properties of ref...
In this paper, a novel theoretical approach to extract the reflection coefficient of reflectarray un...
In this paper, a novel theoretical approach to extract the reflection coefficient of reflectarray un...
In this paper, an approach to extract the reflection coefficient of reflectarray unit cells is devel...
Reflectarrays that emulate paraboloidal main-reflectors, and hyperboloidal or ellipsoidal sub-reflec...
International audienceIn this paper, we investigate the effects of mutual coupling in reflectarray a...
The subject of whether or not it is necessary to include a feed field incidence angle in the design ...
Quality (Q)-factor analysis of reflectarray unit cells is extended to predict performance under para...
A single-layer miniaturized reflectarray element with low sensitivity to mutual coupling effects of ...
An open resonator system is proposed in this work to study the phase behavior of reflectarrays cells...
Reflectarray antennas are a potential candidate solution to realize high gains at millimetre waves (...
Reflectarrays combines key features of large reflectors and phased array elements to generate a coll...
International audienceThis paper presents a numerical technique to predict realistic phase responses...
Floquet analysis is applied to study the effects of incident angle on the reflection properties of u...
A theoretical approach to investigate the effects of incidence angle on reflection properties of ref...
A theoretical approach to investigate the effects of incidence angle on reflection properties of ref...
In this paper, a novel theoretical approach to extract the reflection coefficient of reflectarray un...
In this paper, a novel theoretical approach to extract the reflection coefficient of reflectarray un...
In this paper, an approach to extract the reflection coefficient of reflectarray unit cells is devel...
Reflectarrays that emulate paraboloidal main-reflectors, and hyperboloidal or ellipsoidal sub-reflec...
International audienceIn this paper, we investigate the effects of mutual coupling in reflectarray a...
The subject of whether or not it is necessary to include a feed field incidence angle in the design ...
Quality (Q)-factor analysis of reflectarray unit cells is extended to predict performance under para...
A single-layer miniaturized reflectarray element with low sensitivity to mutual coupling effects of ...
An open resonator system is proposed in this work to study the phase behavior of reflectarrays cells...
Reflectarray antennas are a potential candidate solution to realize high gains at millimetre waves (...
Reflectarrays combines key features of large reflectors and phased array elements to generate a coll...
International audienceThis paper presents a numerical technique to predict realistic phase responses...