Title :
Novel microwave devices using tunable negative index metamaterials and ferrites
Author :
Parimi, Patanjali V. ; Peyton, Peng ; Kunze, Joseph M. ; Vittoria, Carmine ; Harris, Vincent G.
Author_Institution :
SI2 Technol., Billerica, MA
Abstract :
Next generation microwave devices require to be multifunctional for efficient, cost effective operation in light weight, low volume structures. A miniature tunable negative index metamaterial phase shifter and an ultra wideband phased array antenna have been designed using ferrite materials. Negative permeability ferrite material in combination with negative permittivity of plasmonic wires produces a tunable negative refractive index metamaterial (TNIM). The TNIM shows a phase shift with a figure of merit of nearly 180deg/kOe o of applied magnetic field. Investigation of loss in X- and Q-band TNIM reveals that high frequency loss is more due to ferrite quality rather that the design of the TNIM. The miniature, 10:1 bandwidth current sheet phased array antenna is designed using magnetic ferrite as absorber.
Keywords :
antenna phased arrays; electromagnetic wave absorption; ferrites; metamaterials; permeability; permittivity; phase shifters; refractive index; ultra wideband antennas; Q-band; X-band; bandwidth current sheet phased array antenna; figure of merit; high frequency loss; low volume structures; magnetic field; microwave devices; negative permeability ferrite material; negative permittivity; negative refractive index; next generation microwave devices; phase shifter; plasmonic wires; tunable negative index metamaterials; ultra wideband phased array antenna; Antenna arrays; Costs; Ferrites; Magnetic materials; Metamaterials; Microwave devices; Phase shifters; Phased arrays; Ultra wideband antennas; Ultra wideband technology;
Conference_Titel :
Antenna Technology, 2009. iWAT 2009. IEEE International Workshop on
Conference_Location :
Santa Monica, CA
Print_ISBN :
978-1-4244-4395-6
Electronic_ISBN :
978-1-4244-4396-3
DOI :
10.1109/IWAT.2009.4906980
