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Asymmetric coplanar-strip transmission lines for MMIC and integrated optic applications

Asymmetric coplanar-strip transmission lines for MMIC and integrated optic applications

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© The Institution of Electrical Engineers
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The basic parameters (ɛe, C, Z0 of asymmetric coplanar-strip waveguides on finite thickness substrate are reported.

Inspec keywords: integrated optics; refractive index; strip line components; permittivity; electric impedance; MMIC; strip lines

Other keywords: finite thickness substrate; integrated optic applications; MMIC; microwave refractive index; asymmetric coplanar-strip waveguides; gap width; microwave transmission lines; characteristic impedance; effective dielectric constant

Subjects: Integrated optics; Solid-state microwave circuits and devices; Waveguide and microwave transmission line components

References

    1. 1)
      • H. Haga , M. Izutsu , T. Sueta . Travelling wave modulator switch with an etched grave. IEEE J. Quantum Electron. , 6 , 902 - 906
    2. 2)
      • S.S. Bedair . Characteristics of some asymmetrical coupled transmission lines. IEEE Trans. , 1 , 108 - 110
    3. 3)
      • M. Izutsu , Y. Yamane , T. Sueta . Broad-band travelling-wave modulator using a LiNbO3 optical waveguide. IEEE J. Quantum Electron. , 287 - 290
    4. 4)
      • W. Platle , B. Saurer . Optically CW-induced losses in semiconductor coplanar waveguides. IEEE Trans. , 1 , 139 - 149
    5. 5)
      • Hunna, V.F., Thebalt, D.: `Theoretical and experimental investigation of asymmetric coplanar waveguides', IEEE MTT Symp. Dig., 1984, p. 463–471.
    6. 6)
      • Gevorgyan, S.S.: `Optics control microwaves: The next step', 20th European Microwave Conf., 1990, Budapest.
    7. 7)
      • G. Chione , U.C. Naldi . Coplanar waveguides for MMIC applications: Effects of upper shielding, conductor backing, finite-extent ground planes, and line-to-line coupling. IEEE Trans. , 3 , 260 - 267
    8. 8)
      • K.C. Gupta , R. Garg , R. Chadha . (1981) , Computer aided design of microwave circuits.
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