Akarca-Biyikli, S. S.Bulu, I.Özbay, Ekmel2016-02-082016-02-0820040003-6951http://hdl.handle.net/11693/24240We report a theoretical and experimental demonstration of enhanced microwave transmission through subwavelength apertures in metallic structures with double-sided gratings. Three different types of aluminum gratings (sinusoidal, symmetric rectangular, and asymmetric rectangular shaped) are designed and analyzed. Our samples have a periodicity of 16 mm, and a slit width of 2 mm. Transmission measurements are taken in the 10–37.5 GHz frequency spectrum, which corresponds to 8–30 mm wavelength region. All three structures display significantly enhanced transmission around surface plasmon resonance frequencies. The experimental results agree well with finite-difference-time-domain based theoretical simulations. Asymmetric rectangular grating structure exhibits the best results with ,50% transmission at 20.7 mm, enhancement factor of ,25, and ±4° angular divergence.EnglishMetallic gratingsMetallic structuresSubwavelength aperturesWave vectorsAluminumComputer simulationElectric fieldsElectric network analyzersElectromagnetic wave transmissionElectromagnetic wavesFinite difference methodNatural frequenciesPhotonsResonanceSurface plasmon resonanceTime domain analysisMicrowavesArticle10.1063/1.1783013