Eva Rajo-Iglesias focuses on Optics, Waveguide, Planar, Metamaterial and Microstrip. Her research brings together the fields of Microstrip antenna and Optics. Her study in Microstrip antenna is interdisciplinary in nature, drawing from both Electrical impedance and Radiation pattern.
Her work in Waveguide addresses subjects such as Leakage, which are connected to disciplines such as Electrical contacts, Cut-off and Resonator. Her research in Microstrip intersects with topics in Electrical conductor and Electronic packaging. Her Wave propagation research is multidisciplinary, relying on both Electric current, Conductor and Photonic crystal.
Eva Rajo-Iglesias mainly investigates Optics, Microstrip antenna, Antenna, Electronic engineering and Microstrip. Her work on Waveguide, Surface wave, Metamaterial and Bandwidth as part of general Optics research is frequently linked to Planar, thereby connecting diverse disciplines of science. Her Microstrip antenna research is multidisciplinary, incorporating perspectives in Acoustics, Antenna measurement, Patch antenna and Radiation pattern.
Eva Rajo-Iglesias combines subjects such as Extremely high frequency, Radiation and Groove with her study of Antenna. Her work deals with themes such as Directional antenna, Wireless, Antenna diversity, MIMO and Spectral efficiency, which intersect with Electronic engineering. Her Microstrip research includes elements of Wideband, Optoelectronics, Resonator, Waveguide and Electronic packaging.
Her primary scientific interests are in Optics, Ka band, Waveguide, Antenna and Optoelectronics. Her Optics study incorporates themes from Transverse plane, Frequency band and Directivity. As part of the same scientific family, Eva Rajo-Iglesias usually focuses on Directivity, concentrating on Center frequency and intersecting with Waveguide.
Her Ka band research incorporates themes from Microstrip and Wideband. The various areas that she examines in her Microstrip study include Acoustics, Transmission and Butler matrix. In her study, Radiation pattern, Microwave, Directive antennas, Surface wave and Electronic packaging is strongly linked to Leakage, which falls under the umbrella field of Optoelectronics.
Her primary areas of study are Antenna, Optics, Metamaterial, Optoelectronics and Waveguide. Her research investigates the connection between Antenna and topics such as Acoustics that intersect with problems in Radial line slot antenna, Radial line and Excitation. Optics connects with themes related to Relative permittivity in her study.
Eva Rajo-Iglesias has included themes like Electrical contacts, Electromagnetic radiation and Broad band in her Metamaterial study. The concepts of her Optoelectronics study are interwoven with issues in Ideal and Ka band. Her Dispersion research incorporates elements of Waveguide, Prism and Beam steering.
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Local Metamaterial-Based Waveguides in Gaps Between Parallel Metal Plates
P.-S. Kildal;E. Alfonso;A. Valero-Nogueira;E. Rajo-Iglesias.
IEEE Antennas and Wireless Propagation Letters (2009)
Design and experimental verification of ridge gap waveguide in bed of nails for parallel-plate mode suppression
Per-Simon Kildal;Ashraf Uz Zaman;Eva Rajo-Iglesias;Esperanza Alfonso.
Iet Microwaves Antennas & Propagation (2011)
Mutual Coupling Reduction in Patch Antenna Arrays by Using a Planar EBG Structure and a Multilayer Dielectric Substrate
E. Rajo-Iglesias;O. Quevedo-Teruel;L. Inclan-Sanchez.
IEEE Transactions on Antennas and Propagation (2008)
Numerical studies of bandwidth of parallel-plate cut-off realised by a bed of nails, corrugations and mushroom-type electromagnetic bandgap for use in gap waveguides
E. Rajo-Iglesias;Per-Simon Kildal.
Iet Microwaves Antennas & Propagation (2011)
Ant Colony Optimization in Thinned Array Synthesis With Minimum Sidelobe Level
O. Quevedo-Teruel;E. Rajo-Iglesias.
IEEE Antennas and Wireless Propagation Letters (2006)
Parallel Plate Cavity Mode Suppression in Microstrip Circuit Packages Using a Lid of Nails
E. Rajo-Iglesias;A.U. Zaman;P.-S. Kildal.
IEEE Microwave and Wireless Components Letters (2010)
Cost-Effective Gap Waveguide Technology Based on Glide-Symmetric Holey EBG Structures
Mahsa Ebrahimpouri;Eva Rajo-Iglesias;Zvonimir Sipus;Oscar Quevedo-Teruel.
IEEE Transactions on Microwave Theory and Techniques (2018)
Design Guidelines for Gap Waveguide Technology Based on Glide-Symmetric Holey Structures
Mahsa Ebrahimpouri;Oscar Quevedo-Teruel;Eva Rajo-Iglesias.
IEEE Microwave and Wireless Components Letters (2017)
Groove gap waveguide: A rectangular waveguide between contactless metal plates enabled by parallel-plate cut-off
Eva Rajo-Iglesias;Per-Simon Kildal.
european conference on antennas and propagation (2010)
Antenna Parametrization for the Detection of Partial Discharges
Guillermo Robles;Matilde Sanchez-Fernandez;Ricardo Albarracin Sanchez;Monica V. Rojas-Moreno.
IEEE Transactions on Instrumentation and Measurement (2013)
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