Title :
Measurement and prediction of helix-loaded chiral composites
Author :
Brewitt-Taylor, Colin R. ; Lederer, Peter G. ; Smith, Frank C. ; Haq, Sajad
Author_Institution :
Defense Evaluation & Res. Agency, UK
fDate :
4/1/1999 12:00:00 AM
Abstract :
A method is described for the extraction of the permittivity, permeability, and chirality of composite chiral materials, using measurements of reflection and transmission in a circular waveguide. This has been applied to a number of helix-loaded composites, in the frequency band 8-12 GHz. The properties of these composites have also been computed from the helix geometry and other basic information. The theory correctly predicts the frequency of the half-wavelength resonance observed, the relative magnitude of the constitutive parameters, and the low-frequency dielectric constant. But it has been found necessary to adjust the host-medium loss to obtain the correct absolute magnitudes. This agreement provides a confirmation that the theory is basically sound and so assists in discovering what chiral parameters are practically obtainable and in exploring applications of chiral materials
Keywords :
chirality; circular waveguides; composite materials; electromagnetic wave reflection; electromagnetic wave transmission; permeability; permittivity measurement; resonance; waveguide theory; 8 to 12 GHz; SHF; absolute magnitudes; chiral parameters; circular waveguide; composite chiral materials; frequency band; half-wavelength resonance; helix geometry; helix-loaded chiral composites; host-medium loss; low-frequency dielectric constant; measurements; permeability; permittivity; prediction; reflection; transmission; Composite materials; Computational geometry; Dielectric constant; Dielectric materials; Frequency; Information geometry; Permeability measurement; Permittivity measurement; Reflection; Resonance;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
