Title :
A Measurement Process to Characterize Natural and Engineered Low-Loss Uniaxial Dielectric Materials at Microwave Frequencies
Author :
Mumcu, Gokhan ; Sertel, Kubilay ; Volakis, John L.
Author_Institution :
Ohio State Univ., Columbus
Abstract :
We present a measurement method to characterize low-loss engineered materials and natural uniaxial dielectrics. Our approach employs a rectangular cavity coupled with tailored finite-element simulations to accurately determine the permittivity tensors and loss tangents of material assemblies. Although similar approaches for natural crystals have been reported, this is the first time this method is adapted to engineered metamaterials. Loss-tangent measurements with an accuracy of 4-5 significant digits can be achieved by this simple and effective measurement approach. To demonstrate the method, we characterize a layered barium titanate-alumina stack and show that low-loss engineered crystals can be achieved via a proper choice of a bonding agent.
Keywords :
alumina; barium compounds; dielectric loss measurement; dielectric materials; finite element analysis; materials testing; metamaterials; microwave materials; microwave measurement; permittivity measurement; BaTiO3-Al2O3; engineered low-loss uniaxial dielectric materials; finite-element simulations; layered barium titanate-alumina stack; loss-tangent measurements; metamaterials; microwave frequencies; natural uniaxial dielectrics; permittivity tensors; rectangular cavity; Crystalline materials; Crystals; Dielectric materials; Dielectric measurements; Finite element methods; Frequency measurement; Loss measurement; Microwave frequencies; Microwave measurements; Permittivity measurement; Anisotropy; engineered materials; low-loss dielectric materials; microwave measurements; uniaxial dielectric characterization;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2007.912168
