Inductive twin-strip gratings in incident TE waves

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Inductive twin-strip gratings in incident TE waves

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© The Institution of Electrical Engineers
Published

The inductive sides of square loops, or the inductive end caps of the Jerusalem cross, are regarded as segments of a regular strip grating, in order to devise equivalent-circuit models of frequency surfaces. This approximation involves errors, depending on frequency, angle of incidence and the choice of the grating. These are investigated here by analysing the case of inductive twin-strip gratings in TE incidence, and comparing them with regular gratings, giving specific examples.

Inspec keywords: diffraction gratings; waveguide theory

Other keywords: equivalent-circuit models; inductive twin-strip gratings; incident TE waves; Jerusalem cross

Subjects: Waveguide and cavity theory

References

    1. 1)
      • R.I. Primich . Some electromagnetic transmission and reflection properties of a strip grating. IRE Trans. , 176 - 182
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      • M.J. Archer . Periodic multielement strip gratings. Electron. Lett. , 958 - 959
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      • I. Anderson . On the theory of self-resonant grids. Bell Syst. Tech. J. , 1725 - 1731
    4. 4)
      • R.J. Langley , A.J. Drinkwater . An improved empirical model for the Jerusalem cross. IEE Proc. H, Microwaves, Opt. & Antennas , 1 , 1 - 6
    5. 5)
      • R.J. Langley , E.A. Parker . An equivalent circuit model for arrays of square loops. Electron. Lett. , 294 - 296
    6. 6)
      • N. Marcuvitz . (1951) , Waveguide handbook.
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