• DocumentCode
    1408956
  • Title

    Excitation of leaky modes on multilayer stripline structures

  • Author

    Di Nallo, Carlo ; Mesa, Francisco ; Jackson, David R.

  • Author_Institution
    Dept. of Electron. Eng., Rome Univ., Italy
  • Volume
    46
  • Issue
    8
  • fYear
    1998
  • fDate
    8/1/1998 12:00:00 AM
  • Firstpage
    1062
  • Lastpage
    1071
  • Abstract
    A quasi-analytical method for calculating the excitation of leaky modes on multilayer stripline structures by a finite source is presented in this paper. Simple sources such as an infinitesimal dipole near the conducting strip or a delta-gap feed on the conducting strip of the transmission line are considered. The method uses a numerically constructed Green´s function for the source in the presence of the conducting strip, which is calculated from Fourier transform theory in terms of a one-dimensional Green´s function for a line source in the presence of the conducting strip. The numerical Green´s function involves a one-dimensional integration in the longitudinal wavenumber plane. The residue contributions from the poles of the Green´s function define the excitation amplitudes of the leaky and bound modes that exist on the structure. The numerical Green´s function is also used to numerically calculate the complete current on the strip excited by the source. The correlation between the leaky-mode current and the complete current is used to define the extent of the physical meaning of the leaky mode. The generalized pencil of functions (GPOF) method is used to study this correlation by resolving the complete current on the strip into exponential waves, which are then compared with the current of the leaky mode. The physical meaning of the leaky modes is also analytically examined by consideration of the branch cuts in the longitudinal wavenumber plane for the numerical Green´s function integration. A “path consistency condition” is established as a necessary condition for the physical meaning of the leaky mode
  • Keywords
    Fourier transforms; Green´s function methods; microwave integrated circuits; strip lines; waveguide theory; Fourier transform theory; branch cuts; conducting strip; delta-gap feed; exponential waves; finite source; generalized pencil of functions; infinitesimal dipole; leaky modes; longitudinal wavenumber plane; multilayer stripline structures; numerically constructed Green´s function; one-dimensional integration; path consistency condition; quasi-analytical method; residue contributions; Associate members; Feeds; Fourier transforms; Microstrip; Nonhomogeneous media; Planar transmission lines; Planar waveguides; Stripline; Strips; Transmission line theory;
  • fLanguage
    English
  • Journal_Title
    Microwave Theory and Techniques, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9480
  • Type

    jour

  • DOI
    10.1109/22.704947
  • Filename
    704947