Add to ORKGInternational audienceIn this contribution, we propose the design of a circularly-polarized reconfigurable transmitarray based on a 1-bit unit-cell (i.e. with two phase states, 0 degrees and 180 degrees) operating in linear polarization. Applying the sequential rotation technique, the possibility to switch between the two circular (LHCP/RHCP) polarizations will be presented. The numerical results obtained for a 400-element transmitarray radiating at broadside show a maximum gain of 20.3 dBi at 29 GHz with a cross polarization discrimination better than 30 dB. The -3dB bandwidth in gain reaches 14
International audienceWe present here the design and demonstration of a circularly polarized (CP) tr...
International audienceWe present here the design and demonstration of a circularly polarized (CP) tr...
International audienceWe present here the design and demonstration of a circularly polarized (CP) tr...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceWe present here the design and demonstration of a circularly polarized (CP) tr...
International audienceWe present here the design and demonstration of a circularly polarized (CP) tr...
International audienceWe present here the design and demonstration of a circularly polarized (CP) tr...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we propose the design of a circularly-polarized reconfig...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceIn this contribution, we present the design of a 400-element electronically re...
International audienceWe present here the design and demonstration of a circularly polarized (CP) tr...
International audienceWe present here the design and demonstration of a circularly polarized (CP) tr...
International audienceWe present here the design and demonstration of a circularly polarized (CP) tr...