• DocumentCode
    1390616
  • Title

    Generalized Equivalence Integral Equations

  • Author

    Boag, Amir ; Lomakin, Vitaliy

  • Author_Institution
    Sch. of Electr. Eng., Tel Aviv Univ., Tel-Aviv, Israel
  • Volume
    11
  • fYear
    2012
  • fDate
    7/4/1905 12:00:00 AM
  • Firstpage
    1568
  • Lastpage
    1571
  • Abstract
    A generalized equivalence integral equation (GEIE) approach to formulating scattering from essentially convex closed surfaces is proposed. The GEIE approach invokes the generalized surface field equivalence to partially fill the volume originally occupied by the scatterer with judiciously selected materials, as opposed to the conventional replacement of the scatterer by the free space. The type and shape of the material inclusions can be selected to allow for a numerically efficient construction of the modified Green´s function. Introduction of impenetrable and lossy materials confines the field interaction along the scatterer surface and reduces the coupling between the distant parts of the scatterer, which essentially makes the impedance matrix banded. The presence of lossy materials also resolves the nonuniqueness problem of the electric and magnetic field integral equations by eliminating the internal resonances. The formulation provides a pathway for developing fast iterative and direct electromagnetic integral equation solvers.
  • Keywords
    Green´s function methods; computational electromagnetics; electric field integral equations; electromagnetic wave scattering; magnetic field integral equations; GEIE; Green function; direct electromagnetic integral equation solvers; electric field integral equations; electromagnetic wave scattering; essentially convex closed surfaces; field interaction; generalized equivalence integral equations; generalized surface field equivalence; impedance matrix; lossy materials; magnetic field integral equations; scatterer surface; Computational electromagnetics; Green´s function methods; Integral equations; Moment methods; Surface impedance; Algorithms; computational electromagnetics (CEM); integral equations; moment methods;
  • fLanguage
    English
  • Journal_Title
    Antennas and Wireless Propagation Letters, IEEE
  • Publisher
    ieee
  • ISSN
    1536-1225
  • Type

    jour

  • DOI
    10.1109/LAWP.2012.2236294
  • Filename
    6392847