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References

  • Ahmadloo, M., and A. Dounavis (2008), Parameterized model-order reduction for efficient eigenanalysis of dielectric waveguide structures, IEEE Trans. Microwave Theory Tech., 56(12), 28512858.
  • Antoulas, A. (2005), Approximation of Large-Scale Dynamical Systems, Soc. for Ind. and Appl. Math., Philadelphia, Pa.
  • Bertazzi, F., O. Peverini, M. Goano, G. Ghione, R. Orta, and R. Tascone (2002), A fast reduced-order model for the full-wave FEM analysis of lossy inhomogenous anisotropic waveguides, IEEE Trans. Microwave Theory Tech., 50(9), 21082114.
  • Binev, P., A. Cohen, W. Dahmen, R. Devore, G. Petrova, and P. Wojtaszczyk (2011), Convergence rates for greedy algorithms in reduced basis methods, SIAM J. Math. Anal., 43, 14571472.
  • Buffa, A., Y. Maday, A. Patera, C. Prud'Homme, and G. Turinici (2011), A priori convergence of the greedy algorithm for the parameterized reduced basis, Math. Modell. Numer. Anal., in press.
  • Dillon, B. M., A. A. P. Gibson, and J. P. Webb (1993), Cut-off and phase constants of partially filled axially magnetized, gyromagnetic waveguides using finite elements, IEEE Trans. Microwave Theory Tech., 41(5), 803808.
  • Dyczij-Edlinger, R., D. Kingsland, G. Peng, S. Perepelitsa, S. Polstyanko, and J.-F. Lee (1996), Application of anisotropic absorbers to the analysis of MMIC devices by the finite element method, IEEE Trans. Magn., 32(3), 854857.
  • Farle, O., V. Hill, and R. Dyczij-Edlinger (2004), Finite element waveguide solvers revisited, IEEE Trans. Magn., 40(2), 14681471.
  • Ihlenburg, F. (1998), Finite Element Analysis of Acoustic Scattering, 54 pp., Springer, New York.
  • Lee, J.-F., D. Sun, and Z. Cendes (1991), Full-wave analysis of dielectric waveguides using tangential vector finite elements, IEEE Trans. Magn., 39, 12621271.
  • Lee, S.-C., J.-F. Lee, and R. Lee (2003), Hierarchical vector finite elements for analyzing waveguiding structures, IEEE Trans. Microwave Theory Tech., 51(8), 1897905, doi:10.1109/TMTT.2003.815263.
  • Lee, S.-H., T.-Y. Huang, and R.-B. Wu (2005), Fast waveguide eigenanalysis by wide-band finite element model-order reduction, IEEE Trans. Microwave Theory Tech., 53(8), 25522558.
  • Polstyanko, S. V., R. Dyczij-Edlinger, and J.-F. Lee (1997), Fast frequency sweep technique for the efficient analysis of dielectric waveguides, IEEE Trans. Microwave Theory Tech., 45(7), 11181126.
  • Rahman, B., and J. Davies (1984), Finite element analysis of optical and microwave waveguide problems, IEEE Trans. Microwave Theory Tech., 32, 2028.
  • Sacks, Z. S., D. M. Kingsland, R. Lee, and J.-F. Lee (1995), A perfectly matched anisotropic absorber for use as an absorbing boundary condition, IEEE Trans. Antennas Propag., 43(12), 14601463.
  • Schultschik, A., O. Farle, and R. Dyczij-Edlinger (2008), A model order reduction method for the finite element simulation of inhomogeneous waveguides, IEEE Trans. Magn., 44(6), 13941397.
  • Schultschik, A., O. Farle, and R. Dyczij-Edlinger (2009), An adaptive multipoint fast frequency sweep for large-scale finite element models, IEEE Trans. Magn., 45(3), 11081111.
  • Strube, J., and F. Arndt (1985), Rigorous hybrid-mode analysis of the transition from rectangular waveguide to shielded dielectric image guide, IEEE Trans. Microwave Theory Tech., 33, 391401.
  • Trefethen, L. N., and D. Bau (1997), Numerical Linear Algebra, Soc. for Ind. and Appl. Math., Philadelphia, Pa.