• DocumentCode
    922718
  • Title

    Modeling effective properties of chiral composites

  • Author

    Mariotte, Frkdkrie ; Tretyakov, Sergei A. ; Sauviac, Bruno

  • Author_Institution
    French Atomic Energy Comm., Le Barp, France
  • Volume
    38
  • Issue
    2
  • fYear
    1996
  • fDate
    4/1/1996 12:00:00 AM
  • Firstpage
    22
  • Lastpage
    32
  • Abstract
    After a brief overview of the concepts of electromagnetic chirality and wave propagation in chiral media, this paper deals with the field of microwave-chiral-material modeling. First, studies regarding the scattering of single-chiral or non-chiral elements with different shapes (various designs of helices, Ω-shaped scatterers, wires, and loops) are presented. Results of the backscattered field given by different computer codes are compared. Comparisons among analytical, numerical, and experimental results are also reported. Second, the case of a collection of chiral inclusions is treated. A review of different methods, developed to estimate average properties of helix-loaded materials, is given. Modeling of the effective properties of a chiral slab, such as the rotation angle, ellipticity, permittivity, and permeability, is explored. Reflection and transmission coefficients, evaluated by various methods, are compared with each other, and with measurements. Limitations of the models, possible improvements, and new directions for research are also described. Finally, applications of such composites to the design of radar-absorbing materials are addressed
  • Keywords
    backscatter; chirality; composite materials; electromagnetic fields; electromagnetic wave absorption; electromagnetic wave propagation; electromagnetic wave reflection; electromagnetic wave scattering; electromagnetic wave transmission; microwave propagation; radar cross-sections; Ω-shaped scatterers; EM wave propagation; analytical results; average properties; backscattered field; chiral composites; chiral inclusions; chiral media; computer codes; effective properties modeling; electromagnetic chirality; ellipticity; experimental results; helices; helix-loaded materials; loops; microwave chiral material modeling; nonchiral elements scattering; numerical results; permeability; permittivity; radar absorbing materials; reflection coefficient; rotation angle; single chiral elements scattering; transmission coefficient; wires; Electromagnetic fields; Electromagnetic modeling; Electromagnetic propagation; Electromagnetic scattering; Microwave propagation; Permittivity; Radar scattering; Shape; Slabs; Wires;
  • fLanguage
    English
  • Journal_Title
    Antennas and Propagation Magazine, IEEE
  • Publisher
    ieee
  • ISSN
    1045-9243
  • Type

    jour

  • DOI
    10.1109/74.500229
  • Filename
    500229