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Vectorial finite-element method without spurious solutions for dielectric waveguide problems

Vectorial finite-element method without spurious solutions for dielectric waveguide problems

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© The Institution of Electrical Engineers
Published

A new vectorial finite-element method for the analysis of dielectric waveguide problems is formulated in terms of all three components of the magnetic field H. In this approach, the relation div H = 0 is satisfied and the spurious non-physical solutions do not appear.

Inspec keywords: eigenvalues and eigenfunctions; dielectric waveguides; finite element analysis; waveguide theory

Other keywords: eigenvalue equation; vectorial finite element method; dielectric waveguide problems; dispersion characteristics; magnetic field components

Subjects: Waveguide and cavity theory

References

    1. 1)
      • Z.J. Csendes , P. Silvester . Numerical solution of dielectric loaded waveguides: I—Finite-element analysis. IEEE Trans. , 1124 - 1131
    2. 2)
      • K. Oyamada , T. Okoshi . Two-dimensional finite-element calculation of propagation characteristics of axially nonsymmetrical optical fibers. Radio Sci. , 109 - 116
    3. 3)
      • P. Daly . Hybrid-mode analysis of microstrip by finite-element methods. IEEE Trans. , 19 - 25
    4. 4)
      • A. Konrad . High-order triangular finite elements for electromagnetic waves in anisotropic media. IEEE Trans. , 353 - 360
    5. 5)
      • E.A.J. Marcatili . Dielectric rectangular waveguide and directional coupler for integratedoptics. Bell Syst. Tech. J. , 2071 - 2102
    6. 6)
      • C.W. Yeh . Optical waveguide theory. IEEE Trans. , 1011 - 1019
    7. 7)
      • S. Ahmed , P. Daly . Finite-element methods for inhomogeneous waveguides. Proc. IEE , 1661 - 1664
    8. 8)
      • N. Mabaya , P.E. Lagasse , P. Vandenbulcke . Finite element analysis of optical waveguides. IEEE Trans. , 600 - 605
    9. 9)
      • J.B. Davies , F.A. Fernandez , G.Y. Philippou . Finite element analysis of all modes in cavities with circular symmetry. IEEE Trans. , 1975 - 1980
    10. 10)
      • J.E. Goell . A circular-harmonic computer analysis of rectangular dielectric waveguides. Bell Syst. Tech. J. , 2133 - 2160
    11. 11)
      • M. Ikeuchi , H. Sawami , H. Niki . Analysis of open-type dielectric waveguides by the finite-element iterative method. IEEE Trans. , 234 - 239
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