@article {19_ANT_MAG_EDUARDO_5G_SIW, title = {Planar Array Topologies for 5G Communications in Ku Band [Wireless Corner]}, journal = {IEEE Antennas and Propagation Magazine}, volume = {61}, number = {2}, year = {2019}, month = {April}, pages = {112-133}, keywords = {5G communication environment, 5G communications, 5G mobile communication, antenna array, Antenna arrays, antenna feeds, antenna radiation patterns, dielectric losses, directivity performance, feeding network configurations, Ku band, microstrip, microstrip antenna arrays, Microstrip antennas, microstrip dielectric loss, planar antenna arrays, planar array topologies, radiating elements, SIW feeding network, SIW technologies, substrate integrated waveguide, substrate integrated waveguides, Substrates, two-level corporate feeding network}, issn = {1558-4143}, doi = {10.1109/MAP.2019.2895633}, author = {E. Garcia-Marin and J. L. Masa-Campos and P. Sanchez-Olivares} } @article {19_ANT_MAG_EDUARDO_5G_SIW, title = {Planar Array Topologies for 5G Communications in Ku Band [Wireless Corner]}, journal = {IEEE Antennas and Propagation Magazine}, volume = {61}, number = {2}, year = {2019}, month = {April}, pages = {112-133}, keywords = {5G communication environment, 5G communications, 5G mobile communication, antenna array, Antenna arrays, antenna feeds, antenna radiation patterns, dielectric losses, directivity performance, feeding network configurations, Ku band, microstrip, microstrip antenna arrays, Microstrip antennas, microstrip dielectric loss, planar antenna arrays, planar array topologies, radiating elements, SIW feeding network, SIW technologies, substrate integrated waveguide, substrate integrated waveguides, Substrates, two-level corporate feeding network}, issn = {1558-4143}, doi = {10.1109/MAP.2019.2895633}, author = {E Garcia-Marin and J L Masa-Campos and P Sanchez-Olivares} } @article {47_PARCHE_GUIA_RECTANGULAR_ MOTL_PRADEEP, title = {Waveguide Fed Circular Microstrip Patch Antenna for Ku Band Applications}, journal = {Microwave and Optical Technology Letters}, volume = {57}, number = {3}, year = {2015}, pages = {585-589}, abstract = {This paper presents the design and development of a waveguide fed microstrip patch antenna for Ku band applications. A circular patch is fed by using a conventional WR-51 rectangular waveguide ended with a feeding slot capacitively coupled to the radiating patch. The design is optimized using the electromagnetic software CST Microwave Studio. The antenna is fabricated and the measured results are compared with simulations. The achieved bandwidth of the manufactured antenna is approximately 16.2 - 18.4 GHz, and a maximum gain of 5.7 dBi. The comparison of measured and simulated results shows good agreement except in the prediction of the surface wave effects propagated in the antenna substrate.}, keywords = {circular patch, Ku band, rectangular waveguide, slotted ground plane}, issn = {0895-2477}, doi = {10.1002/mop.28904}, url = {http://onlinelibrary.wiley.com/doi/10.1002/mop.28904/full}, author = {P Kumar and J L Masa-Campos} }