Add to ORKGGap waveguide (GWG) technology will be introduced in this talk, which is a highly efficient guiding structure at millimeter-wave bands. It is self-packaged with no radiation losses. Based on this technology, several highly efficient antenna arrays will be presented
In this paper, a flat lens antenna using Gap Waveguide (GW) technology working in the millimeter wav...
Millimeter-wave communication systems require many innovative antennas adapted for future applicatio...
AMCs, EBGs and other surface-based metamaterials are known to have narrow bandwidths. However, when ...
The coming years will show new applications of wireless communications at higher frequencies (30 GHz...
The coming years will show new applications of wireless communications at higher frequencies (30 GHz...
Millimeter-wave communication systems require many innovative antennas adapted for future applicatio...
The gap waveguide technology has been shown to provide low loss and easy-to-manufacture antenna solu...
Millimeter-wave communication systems require many innovative antennas adapted for future applicatio...
The gap waveguide technology has been shown to provide low loss and easy-to-manufacture antenna solu...
The increasing advance of short range wireless communications requiring high data rates and the lack...
International audienceIn this paper, a flat lens antenna using Gap Waveguide (GW) technology working...
International audienceIn this paper, a flat lens antenna using Gap Waveguide (GW) technology working...
International audienceIn this paper, a flat lens antenna using Gap Waveguide (GW) technology working...
International audienceIn this paper, a flat lens antenna using Gap Waveguide (GW) technology working...
In this paper, a flat lens antenna using Gap Waveguide (GW) technology working in the millimeter wav...
In this paper, a flat lens antenna using Gap Waveguide (GW) technology working in the millimeter wav...
Millimeter-wave communication systems require many innovative antennas adapted for future applicatio...
AMCs, EBGs and other surface-based metamaterials are known to have narrow bandwidths. However, when ...
The coming years will show new applications of wireless communications at higher frequencies (30 GHz...
The coming years will show new applications of wireless communications at higher frequencies (30 GHz...
Millimeter-wave communication systems require many innovative antennas adapted for future applicatio...
The gap waveguide technology has been shown to provide low loss and easy-to-manufacture antenna solu...
Millimeter-wave communication systems require many innovative antennas adapted for future applicatio...
The gap waveguide technology has been shown to provide low loss and easy-to-manufacture antenna solu...
The increasing advance of short range wireless communications requiring high data rates and the lack...
International audienceIn this paper, a flat lens antenna using Gap Waveguide (GW) technology working...
International audienceIn this paper, a flat lens antenna using Gap Waveguide (GW) technology working...
International audienceIn this paper, a flat lens antenna using Gap Waveguide (GW) technology working...
International audienceIn this paper, a flat lens antenna using Gap Waveguide (GW) technology working...
In this paper, a flat lens antenna using Gap Waveguide (GW) technology working in the millimeter wav...
In this paper, a flat lens antenna using Gap Waveguide (GW) technology working in the millimeter wav...
Millimeter-wave communication systems require many innovative antennas adapted for future applicatio...
AMCs, EBGs and other surface-based metamaterials are known to have narrow bandwidths. However, when ...