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Effect of enhanced current crowding in a CPW with a thin ferroelectric film

Effect of enhanced current crowding in a CPW with a thin ferroelectric film

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Enhanced current crowding is predicted at the edges of the conducting strips in thin ferroelectric film coplanar waveguides (CPWs). A minimum current crowding depth is expected, which depends on the CPW geometry and dielectric constant of the ferroelectric film. In practical CPW devices the enhanced current crowding can increase the conductor losses by up to four times. The current crowding depth may be smaller than the skin depth or London penetration depth (for high temperature superconducting CPW).

Inspec keywords: microwave devices; permittivity; waveguide theory; ferroelectric thin films; coplanar waveguides; current distribution; electric fields; losses

Other keywords: thin ferroelectric film; CPW geometry; CPW devices; current crowding enhancement; current crowding depth; conductor losses; dielectric constant

Subjects: Waveguide and cavity theory; Waveguides and microwave transmission lines; Piezoelectric and ferroelectric devices

References

    1. 1)
      • D.C. Degroot , J.A. Beall , R.B. Marks , D.A. Rudman . Microwave properties of voltage-tunable YBa2Cu3O7-x/SrTiO3coplanarwaveguide transmission lines. IEEE Trans. Appl. Supercond. , 2272 - 2275
    2. 2)
      • G.L. Matthaei , K. Kiziloglu , N. Dagli , S.I. Long . The nature ofthe charges, currents, and fields in and about conductors having cross-sectionaldimensions of the order of a skin depth. IEEE Trans. , 1031 - 1036
    3. 3)
      • S. Gevorgian , P. Linner , E. Kollberg . CAD models for shieldedmultilayered CPW. IEEE Trans. , 772 - 719
    4. 4)
      • G. Ghione . A CAD oriented analytic model for the losses of general asymmetriccoplanar lines in hybrid and monolithic MIC's. IEEE Trans.
    5. 5)
      • N.H. Zhu , E.Y.B. Pun , P.S. Chung . Field distribution in supportedcoplanar lines using conformal mapping techniques. IEEE Trans. , 1493 - 1496
    6. 6)
      • C.L. Holloway , E.F. Kuester . A quasi-closed form expression forthe conductor loss of CPW lines, with an investigation of edge shape effects. IEEE Trans. , 2695 - 2701
    7. 7)
      • A.T. Findikoglu , Q.X. Jia , I.H. Campbell , X.D. Wu . Electricallytunable coplanar transmission line resonators using YBa2Cu3O7-x/SrTiO3 bilayers. Appl. Phys. Lett. , 3674 - 3676
    8. 8)
      • M. Gillick , I.D. Robertson , J.S. Joshi . An analytical method fordirect calculation of E & H-field patterns of conductor-backed coplanarwaveguides. IEEE Trans. , 1606 - 1610
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