Add to ORKG© Institution of Engineering and Technology.All Rights Reserved. A wide bandwidth, low profile, double sided, wide angle impedance matching metasurface is reported. It alleviates the well-known problem of impedance mismatch caused by mutual coupling when an array is in its scan mode. Each unit cell of the metasurface contains two multi-resonant, tightly-coupled unequal arm Jerusalem cross elements on the top and bottom sides of a thin substrate. Each element consists of two orthogonal capacitively loaded strips. The wide bandwidth of the metasurface is achieved by tightly coupling these multi-resonant elements. The metasurface is capable of facilitating wide angle scanning over a 6:1 impedance bandwidth without the need for bulky dielectric...
The present study proposes a strong and wide microwave absorption of multilayered metastructure (SWM...
International audienceThe design of 3D Wide-angle impedance matching is presented in this paper. The...
International audienceThe design of a wide-angle impedance matching(WAIM) layer based on a metasurfa...
© 2018 The Author(s). A wide bandwidth, ultra-thin, metasurface is reported that facilitates wide an...
© 2016 IEEE. The agile beam scanning ability is attractive feature of phased array over traditional ...
© 1963-2012 IEEE. A wideband, low-profile, tightly coupled antenna array with a simple feed network ...
The effects of mutual coupling in beam scanning arrays increase degradation in gain as the beam is s...
The use of metamaterials to obtain a wideband wide angle impedance matching (WAIM) for compact phase...
This paper presents a design technique for a wide angle impedance matching network material which do...
This effort explored design of metasurface antennas and evaluated their suitability for ultra-wideba...
In this paper we present the full process of designing anisotropic metamaterial (MM) wide angle impe...
For wide-angle scanning planar arrays, the magnitude of the reflection coefficient may change substa...
The paper shows the gain-bandwidth limitations of traditional discrete component matching used in el...
This paper presents two metamaterial-inspired solutions to mitigate the scan blindness effects in a ...
The present study proposes a strong and wide microwave absorption of multilayered metastructure (SWM...
International audienceThe design of 3D Wide-angle impedance matching is presented in this paper. The...
International audienceThe design of a wide-angle impedance matching(WAIM) layer based on a metasurfa...
© 2018 The Author(s). A wide bandwidth, ultra-thin, metasurface is reported that facilitates wide an...
© 2016 IEEE. The agile beam scanning ability is attractive feature of phased array over traditional ...
© 1963-2012 IEEE. A wideband, low-profile, tightly coupled antenna array with a simple feed network ...
The effects of mutual coupling in beam scanning arrays increase degradation in gain as the beam is s...
The use of metamaterials to obtain a wideband wide angle impedance matching (WAIM) for compact phase...
This paper presents a design technique for a wide angle impedance matching network material which do...
This effort explored design of metasurface antennas and evaluated their suitability for ultra-wideba...
In this paper we present the full process of designing anisotropic metamaterial (MM) wide angle impe...
For wide-angle scanning planar arrays, the magnitude of the reflection coefficient may change substa...
The paper shows the gain-bandwidth limitations of traditional discrete component matching used in el...
This paper presents two metamaterial-inspired solutions to mitigate the scan blindness effects in a ...
The present study proposes a strong and wide microwave absorption of multilayered metastructure (SWM...
International audienceThe design of 3D Wide-angle impedance matching is presented in this paper. The...
International audienceThe design of a wide-angle impedance matching(WAIM) layer based on a metasurfa...