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Analysis of discontinuous-layer propagation structures by transverse resonance method

Analysis of discontinuous-layer propagation structures by transverse resonance method

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© The Institution of Electrical Engineers
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The transverse resonance method is used for the accurate analysis of propagation structures with discontinuous substrate layers. The original aspect of the approach is the use of LSE-LSM modes as basis functions combined with appropriate trial functions which leads to small-size matrices and reduces the numerical effort. As an example the propagation characteristics of a microslab waveguide with finite metallisation thickness are calculated.

Inspec keywords: waveguide theory; MMIC; metallisation; matrix algebra

Other keywords: discontinuous substrate layers; small-size matrices; finite metallisation thickness; microslab waveguide; discontinuous-layer propagation structures; LSE-LSM modes; trial functions; MMICs; numerical effort; transverse resonance method

Subjects: Microwave integrated circuits; Semiconductor integrated circuits; Waveguide and cavity theory

References

    1. 1)
      • M. Thorburn , A. Agoston , V.K. Tripathi . Computation of frequency-dependent propagation characteristics of microstriplike propagation structures with discontinuous layers. IEEE Trans. , 148 - 153
    2. 2)
      • E. Yamashita , H. Ohashi , K. Atsuki . Characterization of microstrip lines near a substrate edge and design formulas foe edge compensated microstrip lines. IEEE Trans. , 890 - 896
    3. 3)
      • H. Aubert , B. Souny , H. Baudrand . Origin and avoidance of spurious solutions in the transverse resonance method. IEEE Trans. , 450 - 456
    4. 4)
      • K. Atsuki , E. Yamashita . Transmission line aspects of the design of broad-band electrooptic traveling-wave modulators. J. Lightwave Technol. , 316 - 319
    5. 5)
      • B. Young , T. Itoh . Analysis and design of microslab waveguide. IEEE Trans. , 850 - 857
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