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Journal of Microwave Power and Electromagnetic Energy Volume 29, 1994 - Issue 2
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Original Articles

Numerical Prediction of Three-Dimensional Power Density Distributions in a Multi-Mode Cavity

W. FuView further author information
&
A. MetaxasView further author information
Pages 67-75 | Received 15 Nov 1993, Accepted 11 Mar 1994, Published online: 14 Jun 2016

References

  • Berzins, M., Dew, P.M., and Furzeland, R.M. 1989. Devel-oping PDE Software Using the Method of Lines and Differential Algebraic Integrators. Appl. Numer. Maths 5: 375–397.
  • Fu, W.B. and Metaxas, A.C. 1993a. MAXEMOL-a numeri¬cal scheme for the solution of Maxwell’s Equations using the Method of Lines Proceedings of the International Conference on Microwaves and High Frequency, Goteborg, Sweden, September 28–30.
  • Fu, W.B. and Metaxas, A.C. 1993b. An analytical study of the propagation of microwaves through a dielectric-filled waveguide. Cambridge University Engineering Depart-ment Research Report, February.
  • Fu, W.B. and Metaxas, A.C. 1993c. A comparison of the complex number and real number systems for the solu¬tion of Maxwell’s Equations. Cambridge University Engineering Department Research Report, July.
  • Fu, W.B. and Metaxas, A.C. 1993d. Stability criteria for MAXEMOL-a numerical scheme for Maxwell’s Equa¬tions using the Method of Lines. Proceedings of the Second International Workshop on Discrete Time Do¬main Modelling of Electromagnetic Fields and Networks, Berlin, Germany, October 28–29
  • Fu, W.B. and Metaxas, A.C. 1994. The treatment of condi¬tions across a dielectric interface Cambridge University Engineering Department Research Report, February.
  • Huang, W.P., Chu, S.T., and Chaudhuri, S.K. 1991. A semi-vectorial finite difference time domain method. IEEE Photonics Technology Letters 3, 9, 803–806.
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  • Jia, X. 1993. Experimental and numerical study of micro-wave power distribution in a microwave heating appli-cator. J. Microwave Power and Electromagn. Energy 28: 25–31.
  • Jia, X and Jolly, P. 1992. Simulation of microwave field and power distributions in a cavity by a three-dimensional finite element method. J. Microwave Power and Electromagn. Energy 27: 11–22.
  • Lau, R.W.M. and Sheppard, R.I. 1986. The modelling of biological systems in three dimensions using the finite difference time domain method: I. The implementation of the model. Phys. Med. Biol. 31(11): 1247–1256.
  • Lawson, J. and Berzins, M. 1992. Computational Ordinary Differential Equations. (eds. J.R. Cash and I. Gladwell) Clarendon Press, Oxford, UK, pp. 309–322.
  • Nam, S., Ling, H., and Itoh, T. 1989. Characterization of uniform microstrip line and its discontinuities using the time domain Method of Lines. IEEE Trans. MIT, 37, 12, 2051–2057.
  • Pregla, R. and Kremer, D. 1992. Method of Lines with spe-cial absorbing boundary conditions-analysis of weakly guiding optical structures. IEEE Microwave and Guided Wave Letters 2(6): 239–241.
  • Spiegel, R.J., Fatmi, M.B.E., and Kunz, K.S. 1985. Appli-cation of a finite difference technique to the human radiofrequency dosimetry problem. J. Microwave Power 9: 241–254.
  • Stern, M.S. 1988. Semi-vectorial polarised finite difference method for optical waveguides with arbitrary index profiles. IEE Proceedings 135, J, 56–63.

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