Title :
Split-Ring Resonator Loading for the Slotted Waveguide Antenna Stiffened Structure
Author :
Nicholson, Kelvin J. ; Rowe, Wayne S T ; Callus, Paul J. ; Ghorbani, Kamran
Author_Institution :
Defence Sci. & Technol. Organ., Melbourne, VIC, Australia
fDate :
7/3/1905 12:00:00 AM
Abstract :
Slotted waveguide antenna stiffened structure (SWASS) utilizes hat-stiffeners on thin skins or blade stiffeners in sandwich structures as microwave waveguides. By machining slots through the outer skin and into the waveguide, large slotted waveguide antenna arrays may be integrated into a load-bearing structure. However, the slot length is typically resonant with half-wavelength spacing, thereby degrading the load-bearing capacity of the structure. This letter demonstrates a simple method to achieve comparable gain from a slot radiator with subresonant length by means of a single split ring. The adverse structural impact of the individual slot and the slot array may therefore be reduced.
Keywords :
carbon fibre reinforced composites; filled polymers; microwave resonators; slot antenna arrays; C; blade stiffener; half-wavelength spacing; hat-stiffener; load-bearing styructure capacity; machining slot; microwave waveguide; sandwich structure; single split ring; skin stiffener; slot radiator; slotted waveguide antenna array; slotted waveguide antenna stiffened structure; split-ring resonator loading; subresonant length; Apertures; Gain; Loading; Metamaterials; Polymers; Resonant frequency; Slot antennas; Carbon fiber reinforced polymer (CFRP); slotted waveguide antenna (SWA); split-ring resonator (SRR);
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2011.2181474
