volume | PIER Journals

1. Gedney, S. D. and R. Mittra, "Analysis of the electromagnetic scattering by thick gratings using a combined FEM/MM solution," IEEE frans. Antenna Propagat., Vol. 39, 1605-1614, Nov. 1991.
doi:10.1109/8.102776

2. Gedney, S. D., J. F. Lee, and R. Miura, "A combined FEM/M0M approach to analyze the plane wave diffraction by arbitrary gratmgs," IEEE Trans. Microwave Theory Tech., Vol. 40, 363-370, Feb. 1992.
doi:10.1109/22.120110

3. Jin, J. and J. L. Volaki, "Scattering and radiation analysis of three-Dimensional cavity arrays via a hybrid finite-element method," IEEE Trans. Antenna Propagat., Vol. 41, 1580-1585, Nov. 1993.

4. Lucas, E. W. and T. P. Fontana, "A 3-D hybrid finite element/boundary element method for the unified radiation and scattering analysis of general infinite period arrays," IEEE Trans. Antenna Propagat., Vol. 43, 145-153, Feb. 1995.
doi:10.1109/8.366376

5. McGrath, D. T. and V. P. Pyati, "Phased array antenna analysis with the hybrid finite element method," IEEE Trans. Antenna Propagat., Vol. 42, 1625-1630, Dec. 1994.
doi:10.1109/8.362811

6. Angelo, J. D. and I. Mayergoyz, "Phased array antenna analysis," Finite Element Software for Microwave Engineering, Chapter 8, John Wiley & Sons, Inc., 1996.

7. Sacks, D. S., D. M. Kingsland, R. Lee, and J. F. Lee, "A perfectly matched anisotropic absorber for use as an absorbing boundary condition," IEEE Trans. Antenna Propagat., Vol. 43, 1460-1463, Dec. 1995.
doi:10.1109/8.477075

8. Lee, J. F. and R. Mittra, "CA note on the application of edgeelements for modeling three-dimensional inhomogeneously-filled cavities," IEEE Trans. Microwaveave Theory Tech, Vol. 40, 1767-1773, sept. 1992.
doi:10.1109/22.156603

9. Lee, J. F., "Tangential vector finite elements and their application to solving electromagnetic scattering problems," Applied Computational Electromagnetics Society Newsletter, Vol. 10, 52-75, Mar. 1995.

10. Kingsland, D. M., J. Gong, J. L. Volakis, and J. F. Lee, "Performance of an anisotropic artificial absorber for truncating finiteelement meshes," IEEE Trans. Antenna Propagat., Vol. 44, 975-981, July 1996.
doi:10.1109/8.504304

11. Wu, J. Y., D. M. Kingsland, J. F. Lee, and R. Lee, "A comparison Of anisotropic PML to berenger's PML and its application to the finite-element method for EM scattering," IEEE frans. Antenna Propagat., Vol. 45, 40-50, Jan. 1997.
doi:10.1109/8.554239

12. Wu, C. P, and V. Galindo, "Properties of a phased array of rectangular waveguides with thin walls," IEEE Trans. Antenna Propagat, Vol. 14, 163-173, Mar. 1966.
doi:10.1109/TAP.1966.1138654

13. Galindo, V. , C, and P. Wu, "Numerical solutions for an infinite phased array of rectangular waveguides with thick walls," IEEE Trans. Antenna Propagat., Vol. 14, 149-158, Mar. 1966.
doi:10.1109/TAP.1966.1138653

14. Bertoni, H. L., L. S. Cheo, and T. Tamir, "Frequency-selective reflection and transmission by a periodic dielectric layer," IEEE Trans. Antenna Propagat., Vol. 37, 78-83, Jan. 1989.
doi:10.1109/8.192167

15. Pinello, W, P., R, Lee, and A. C. Cangellari, "Finite element modeling of electromagnetic wave interactions with periodic dielectric structures," IEEE Trans. Microwave Theory Tech., Vol. 33, 1083-1088, Oct. 1985.

16. Compton, R. C. and D. B. Rutledge, "Approximation techniques for planar periodic structures," IEEE Trans. Microwave Theory Tech, Vol. 33, 1083-1088, Oct. 1985.
doi:10.1109/TMTT.1985.1133173

Dr. Y. Zhu

Professor Robert Lee