Edited Books:

1.        Guest Editors J. F. Lee and R. Lee, Special issue of Computer Methods in Applied Mechanics and Engineering (CMAME) on Computational Electromagnetics, Vol. 169, no 3/4, 1999.

2.        Special issue guest editor, Electromagnetics, 22: (4) May-June, 23 (5) July-August 2002

Chapter In Edited Books:

       Contributed to 3 Edited Books

1.        R. Mittra and J. F. Lee, ``Direct Maxwell's equation solvers in time and frequency domains - a review,'' Directions in Electromagnetic Wave Modelings, H. L. Bertoni and L. B. Felsen, (eds), pp. 171-184, Plenum Press, 1991.

2.        J. F. Lee, Finite Element Methods for Microwave Engineering, Book Chapter for Book, Novel Technologies for Microwave and Milimeter-Wave Applications, Editor Kiang Jean-Fu, Kluwer Academic Publisher, 2002.

3.        R.J. Burkholder and J.F. Lee, Iterative Methods, THE WILEY ENCYCLOPEDIA OF RF AND MICROWAVE ENGINEERING, Editing by K. Chang.

Peer Reviewed Journal Articles:

         Published 78 Peer Reviewed Journal Articles, and results in 1199 citations to date (09/26/2005).

Before 1995:

1.        J. F. Lee and Z. J. Cendes, ``Transfinite elements: A highly efficient procedure for modeling open field problems,'' J. Appl. Phys., pp. 3913-3915, Apr. 1987.      

2.        J. F. Lee and Z. J. Cendes, ``An adaptive spectral response modeling procedure for multiport microwave circuits,'' IEEE Trans. Microwave Theory Tech., MTT-35, pp. 1240-1247, Dec. 1987.   

3.        Z. J. Cendes and J. F. Lee, ``The transfinite element method for modeling MMIC devices,'' IEEE Transactions on Microwave Theory and Techniques, pp. 1639-1649, 1988. 

4.        J. F. Lee, ``Analysis of passive microwave devices by using three-dimensional tangential vector finite elements,'' International Journal of Numerical Modeling, pp. 235-246, 1990. 

5.        J. F. Lee and R. Mittra, ``Analysis of microwave ferrite devices by using finite element method,'' Journal of Applied Physics, pp. 5032-5034, 1991. 

6.        J. F. Lee, D. K. Sun, and Z. J. Cendes, ``Full-wave analysis of dielectric waveguides using tangential vector finite elements,'' IEEE Transactions on Microwave Theory and Techniques, pp. 1262-1271, 1991.   

7.        G. M. Wilkins^*, J. F. Lee, and R. Mittra, ``Numerical modeling of axisymmetric coaxial waveguide discontinuities,'' IEEE Transactions on Microwave Theory and Techniques, pp. 1323-1328, 1991. 

8.        J. F. Lee, D. K. Sun, and Z. J. Cendes, ``Tangential vector finite elements for electromagnetic field computation,'' IEEE Transactions on Magnetics, pp. 4032 - 4235, Sep. 1991. 

9.        J. R. Brauer, S. M. Schaefer, J. F. Lee, and R. Mittra, ``Asymptotic boundary condition for three-dimensional magnetostatic finite elements,'' IEEE Transactions on Magnetics, pp. 5013-5015, Nov. 1991. 

10.      J. F. Lee, R. Palandech^*, and R. Mittra, ``Modeling three-dimensional discontinuities in waveguides using the non-orthogonal FDTD algorithm,'' IEEE Transactions on Microwave Theory and Techniques, pp. 346-352, 1992. 

11.      S. D. Gedney^*, J. F. Lee, and R. Mittra, ``A combined FEM/MoM approach to analyze the plane wave diffraction by arbitrary gratings,'' IEEE Transactions on Microwave Theory and Techniques, pp. 363-370, 1992. 

12.      P. Harms^*, J. F. Lee, and R. Mittra, ``A study of the curvilinear FDTD method vs. the conventional FDTD technique for computing resonant frequencies of cylindrical cavities,'' IEEE Transactions on Microwave Theory and Techniques, pp. 741-746, 1992. 

13.      J. F. Lee, ``Finite Difference Time Domain algorithm for non-orthogonal grids and its application for solving electromagnetic scattering problems,'' Invited paper, Archiv Fur Elektronik und Ubertragungstechnik, pp. 328-335, Sep. 1992. 

14.      J. F. Lee and R. Mittra, ``A note on the application of edge-elements for modeling three-dimensional inhomogeneously-filled cavities,'' IEEE Transactions on Microwave Theory and Techniques, pp. 1767-1773, Sep. 1992.

15.      R. Gordon and J. F. Lee, ``A finite element method that employs an absorbing boundary condition for determining the electromagnetic scattering by inhomogeneous cylindrical structures that are illuminated by an obliquely incident field,'' IEEE Transactions on Magnetics, vol. 29, pp. 1820-1825, March, 1993.

16.      S. D. Gedney and J. F. Lee, ``A mixed element formulation for the efficient solution of electromagnetic scattering problems'', IEEE Trans. Magnetics, vol. 29, pp. 1632-1635, March 1993.

17.      P. H. Harms^*, J. F. Lee, and R. Mittra, ``Characterizing the cylindrical via discontinuity,'' IEEE Trans. Microwave Theory and Techniques, vol. 41, pp. 153-156, Jan. 1993.

18.      R. Gordon^*, J. F. Lee, and R. Mittra, ``A technique for using the finite difference frequency domain method with a non-uniform mesh,'' Archiv Fur Elektronik und Ubertragungstechnik, vol. 47, pp. 143-148, March 1993.

19.      J. F. Lee, ``Numerical solutions of TM scattering using a non-orthogonal finite difference time domain algorithm,'' IEE Proceedings-H, vol. 140, pp. 23-28, 1992.

20.      P. H. Aoyagi^*, J. F. Lee, and R. Mittra, ``A hybrid Yee algorithm/scalar-wave equation approach,'' IEEE Trans. Microwave Theory and Techniques, vol. 41, pp. 1593-1600, Sep. 1993.

21.      J. F. Lee, G. M. Wilkins^*, and R. Mittra, ``Finite element analysis of axisymmetric cavity resonator using a hybrid edge element technique,'' IEEE Trans. MTT, vol. 41, pp. 1981-1987, Nov. 1993.

22.     J. F. Lee, ``WETD - A finite element time domain approach for solving Maxwell's equations'', IEEE microwave and guided wave letter, vol. 4, Jan 1994.

23.      J. F. Lee, ``Finite element analysis of lossy dielectric waveguides,'' IEEE Trans. Microwave Theory and Tech., MTT-42, pp. 1025-1031, June 1994.

24.      D. J. Hoppe, L. W. Epp, and J. F. Lee, ``A hybrid symmetric FEM/MOM formulation applied to scattering by inhomogeneous bodies of revolution,'' IEEE Trans. Antenna Propagations, Vol. AP-42, pp. 798-805, June 1994.

25.      G. M. Wilkins, M. Swaminathan, and J. F. Lee, Waveguide Mode Solution using a Hybrid Edge Element Approach, INT. J. MICROWAVE MILL. 5: (2) 122-130, MARCH 1995.

26.      J. F. Lee and Z. Sacks^*, Whitney Elements Time Domain (WETD) Methods, Invited paper, IEEE T. MAGN. 31: (3) 1325-1329, MAY 1995.

27.      G. Peng^* and J. F. Lee, Analysis of Biaxially Anisotropic Waveguides using Tangential Vector Finite Elements, Microwave and Optical Tech. Letters 9: (3) 156-162 JUNE 1995.

28.      S. V. Polstyanko^* and J. F. Lee, H₁ (curl) Tangential Vector Finite Element Method for Modeling Anisotropic Optical Fibers, IEEE J. LIGHTWAVE TECHNOLOGY 13: (11) 2290-2295 NOV. 1995.

29.      Z. S. Sacks^* and J. F. Lee, A Finite Element Time Domain Method using Prism Elements for Microwave Cavities, IEEE T. ELECTROMAGNETIC COMPATIBILITY 37: (4) 519-527 NOV. 1995.

30.      Z. S. Sacks^*, D. M. Kingsland^*, R. Lee, and J. F. Lee, A Perfectly Matched Anisotropic Absorber for use as an Absorbing Boundary Condition, IEEE T. ANTENNA PROPAG. 43: (12) 1460-1463, DEC. 1995.

 

1996 - 2000:

31.      S. V. Polstyanko^*, R. Dyczij-Edlinger, and J. F. Lee, Full Vectorial Analysis of Nonlinear Slab Waveguide using the Nonlinear Hybrid Vector Finite Element Method, Optics Letters 21: (2) 98 - 100, JAN.15 1996.

32.      R. Dyczij-Edlinger, D. M. Kingsland^*, G. Peng^*, S. G. Perepelitsa^*, S. V. Polstyanko^*, and J. F. Lee, Application of Anisotropic Absorbers to the Analysis of MMIC Devices by the Finite Element Method, IEEE T. MAGN. 32: (3) 854-857, MAY 1996.

33.      D. M. Kingsland^*, J. Gong^*, J. L. Volakis, and J. F. Lee, Performance of an Artificial Absorber for Truncating FEM Meshes, IEEE T. ANTENNA PROPAG. 44: (7) 975-982, JULY 1996.

34.      J. W. Nehrbass^*, J. F. Lee, and R. Lee, Stability Analysis for Perfectly Match Layer Absorbers, Invited paper to Electromagnetic special issue on Boundary Conditions.

35.      R. Lee, Z. Chen^*, J. Jevtic^*, and J. F. Lee, Important Considerations in the Evaluation of ABCs, Invited paper to Electromagnetics special issue on Boundary Conditions.

36.      S. V. Polstyanko^* and J. F. Lee, Nonlinear Hybrid Vector Finite Element Method for Modeling Nonlinear Optical Systems, Radio Science 31:(4) 913-922, JULY-AUG. 1996.

37.      J. Y. Wu^*, 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 T. ANTENNA PROPAG. 45: (1) 40-50, JAN. 1997.

38.      J. F. Lee, R. Lee, and A. Cangellaris, Time domain finite element methods, Invited contribution to IEEE T. ANTENNA PROPAG. Special issue on numerical methods 45: (3) 430-442 MARCH 1997.

39.      S. V. Polstyanko^*, R. Dyczij-Edlinger, and J. F. Lee, Full Wave Vector Maxwell Equation Simulation of Nonlinear Self-focusing Effects in Three Spatial Dimensions, IEEE T. MAGN. 33: (2) 1780-1783, Part 2, MARCH 1997.

40.      S. G. Perepelitsa^*, R. Dyczij-Edlinger, and J. F. Lee, Finite-element Analysis of Arbitrarily Shaped Cavity Resonators using H1(curl) Elements, IEEE T. MAGN. 33: (2) 1776-1779, Part 2, MARCH 1997.

41.      S. V. Polstyanko^*, R. Dyczij-Edlinger, and J. F. Lee, Fast Frequency Sweep Technique for Efficient Analysis of Dielectric Waveguides, IEEE T. MTT 45:(7) 1118-1126, JULY 1997.

42.      S. V. Polstyanko^* and J. F. Lee, Two-Level Hierarchical FEM Method for Modeling Passive Microwave Devices, Journal of Computational Physics 140:(2) 400-420, MARCH 1998.

43.      R. Dyczij-Edlinger, G. Peng^*, and J. F. Lee, A Fast Vector Potential Method Using Tangentially Continuous Vector Finite Elements, IEEE T. MTT 46:(6) 863-868, JUNE 1998.

44.      Xiao-Ming Zhang^* and Jin-Fa Lee, Application of the AWE Method with the 3D TVFEM to Model Spectral Responses of Passive Microwave Components, IEEE T. MTT 46:(11) 1735-1741, Part 1, NOV. 1998.

45.      Paul Aoyagi, Jin-Fa Lee, and M. Katsurai, Analytical Solution to the FDTD Scalar-Wave Equation, Microwave OPT. TECHN. LET. 20: (4) 240-245, FEB. 1999.

46.      C. Liu^* and J. F. Lee, Jacobi-Davidson Algorithm and Its Application to Modeling RF/Microwave Detection Circuits, CMAME Special Issue on Computational Electromagnetics 169: (3-4) 359-375, FEB.1999.

47.      Romanus Dyczij-Edlinger, Guanghua Peng^*, and Jin-Fa Lee, Efficient Finite Element Solvers for the Maxwell Equations in the Frequency Domain, CMAME Special Issue on Computational Electromagnetics 169: (3-4) 297-309, FEB. 1999.

48.      Guanghua Peng^*, Romanus Dyczij-Edlinger, and Jin-Fa Lee, Hierarchical Methods for Solving Matrix Equations from TVFEMs for Microwave Components, IEEE T. MAGN. 35: (3) 1474-1477, Part 1, MAY 1999.

49.      Sergey Polstyanko^*, Guanghua Peng^*, and Jin-Fa Lee, Algebraic Multigrid Method for Solving FEM Matrix Equations for 3D Static Problems, IEEE T. MAGN. 35: (3) 1183-1186, Part 1, MAY 1999.

50.      Jin-Fa Lee, Romanus Dyczij-Edlinger, Eric Lucas, and Tom Fontana, Application of Steepest Descent Smoothing and De-meshing Techniques in h-version Adaptive FEMs, IEEE T. MAGN. 35: (3) 1346-1349, Part 1, MAY 1999.

51.      R. Dyczij-Edlinger, G. Peng^*, and Jin-Fa Lee, Stability Analysis of Field and Four Potential Formulations for Solving Maxwell’s Equations in the Frequency Domain, International Journal of Numerical Modeling: Electronic Networks, Devices and Fields, special issue editors P. Guillon, T. Itoh, and G. Pelosi, INT J NUMER MODEL EL 13: (2-3) 245-260 MAR-JUN 2000.

52.      D. K. Sun, Z. J. Cendes, and J. F. Lee, Adaptive Mesh Refinement, h-version, for Solving Multiport Microwave Devices in Three Dimensions, IEEE Trans. Magn. 36 (4) 1596-1599, July 2000.

2001 - Current:

53.      D. K. Sun, J. F. Lee, and Z. J. Cendes, ALPS: A New Fast Frequency Sweep Procedure for Microwave Devices, IEEE Trans. Microwave Theory and Techniques, 49, (2) 398-402, Feb. 2001.

54.      Sergey Polstyanko^* and Jin-Fa Lee, Adaptive Finite Element Electrostatic Solver, IEEE Trans. Magnetics, Sep. 2001, vol. 37, no. 5, pp. 3120-3124.

55.      Sergey Polstyanko^* and Jin-Fa Lee, Fast Schwarz-type Finite Element Electrostatic Solver, IEEE Trans. Magnetics, Sep. 2001, vol. 37, no. 5, pp. 3469-3474.

56.      Rodney D. Slone, Robert Lee, and Jin-Fa Lee, Multipoint Galerkin Asymptotic Waveform Evaluation for Model Order Reduction of Frequency Domain FEM Electromagnetic Radiation Problems, IEEE Trans. Antennas and Prop., vol. 49, no. 10, Oct. 2001, pp. 1504-1513.

57.      D. K. Sun, J. F. Lee, and Z. J. Cendes, Construction of Nearly Orthogonal Nedelec Bases for Rapid Convergence with Multilevel Preconditioned Solvers, SIAM J. Sci. Comput., vol. 23, no. 4, pp. 1053-1076, Dec. 2001.

58.      R. D. Slone^*, J. F. Lee, and R. Lee, Automating multipoint Galerkin AWE for a FEM fast frequency sweep, IEEE Trans. On Magnetics, 38: (2) 637-640, Part 1, March 2002.

59.      S. M. Wang^*, F. L. Teixeira, R. Lee, J. F. Lee, Optimization of subgridding schemes for FDTD, IEEE Microwave and Wireless Components Letters, 12: (6) 223-225, June 2002.

60.      R. D. Slone^*, J. F. Lee, and R. Lee, A comparison of some model order reduction techniques, Electromagnetics, 22: (4) 275-289, May-June 2002.

61.      S. C. Lee^*, J.-F. Lee, and R. Lee, Hierarchical Vector Finite Elements for Analyzing Wave Guiding Structures, IEEE Trans. MTT, vol. 51, pp. 1897-1905, August 2003.

62.      J.-F. Lee, R. Burkholder, and R. Lee, Loop Star Basis Functions and a Robust Preconditioner for EFIE Scattering Problems, IEEE Trans. Antennas and Propagation, 51 (8) 1855-1863, Aug. 2003.

63.      R. D. Slone^*, R. Lee, and J.-F. Lee, Well-Conditioned Asymptotic Wave Evaluation for Finite Element, IEEE Trans. Antennas and Propagation, 51 (9) 2442-2447, Sep. 2003.

64.      D. K. Sun, J. F. Lee, and Z. J. Cendes, The Transfinite Element Time Domain Method, IEEE Trans. MTT, 51 (10), 2097-2105, Oct. 2003.

65.      R. D. Slone^*, R. Lee, and J.F. Lee, Broadband Model Order Reduction of Polynomial Matrix Equations using Single-Point Well-Conditioned Asymptotic Waveform Evaluation: Derivations and Theory, Int. J. Num. Meth. Eng. 58 (15): 2325-2342, Dec. 2003.

66.      J.F. Lee and D.K. Sun, pMUS (p-type Multiplicative Schwarz) Method with Vector Finite Elements for Modeling Three-Dimensional Waveguide Discontinuities, IEEE Trans. MTT, March 2004.

67.      N. Ozdemir^* and J.F. Lee, A Low-Rank IE-QR Algorithm for Matrix Compression in Volume Integral Equations, IEEE Trans. Magnetics, vol. 40 (2), pp. 1017-1020. March, 2004,.

68.      J .F. Lee, R. Lee, and F. Teixeira, Hierarchical Vector Finite Elements with p-type Non-Overlapping Schwarz Method for Modeling Waveguide Discontinuities, CMES – Computer Modeling in Engineering & Sciences, May 2004, vol. 5(5), pp. 423-434.

69.      R. J. Burkholder and J.F. Lee, Fast Dual-MGS Block-Factorization Algorithm for Dense MoM Matrices, IEEE Trans. Antennas and Propagation, vol. 52 (7), pp. 1693-1699, July 2004.

70.      S. M. Seo^* and J. F. Lee, A Single-Level Low Rank IE-QR Algorithm for PEC Scattering Problems using EFIE Formulation, IEEE Trans. Antennas and Propagation, vol. 52 (8), pp. 2141-2146, August 2004.

71.      M. Vouvakis^*, S.C. Lee^*, K. Zhao^*, and J.F. Lee, A Symmetric FEM-IE Formulation with a Single-Level IE-QR Algorithm for Solving Electromagnetic Radiation and Scattering Problems, IEEE Trans. Antennas Propagat., vol. 52, pp. 3060-3070, Nov. 2004.

72.      K. Zhao^* and J.F. Lee, A Novel Single-Level Dual Rank IE-QR Algorithm to Model Large Microstrip Antenna Arrays, IEEE Transactions on Antenna and Propagation, Volume 52, Issue 10, Oct. 2004, pp:2580-2585.

73.      K. Christandl^*, G. P. Lafyatis, S. C. Lee^*, and J. F. Lee, 1D and 2D optical lattices on a chip for quantum computing, Phys. Rev. A 70, 032302, May.2004.

74.      S. C. Lee^*, M. Vouvakis^*, K. Zhao^*, and J. F. Lee, Analyzing Microwave Devices using a symmetric Coupling of Finite and Boundary Elements, International Journal for Numerical Method in Engineering 2005; 64:528-546.

75.      S. C. Lee^*, M. Vouvakis^*, and J. F. Lee, A Non-overlapping Domain Decomposition Method with Non-Matching Grids for Modeling Large Finite Antenna Arrays, J. Comput. Phys., vol. 203, pp. 1-21, Feb. 2005.

76.      S. M. Seo^* and J. F. Lee, A Fast IE-FFT Algorithm for Solving PEC Scattering Problems, IEEE Transactions on Magnetics, Volume 41,  Issue 5,  May 2005, pp:1476 - 1479.

77.      K. Zhao, M. Vouvakis and J. F. Lee, The Adaptive Cross Approximation Algorithm for Accelerated Method of Moments Computations of EMC Problems, IEEE Transactions on Electromagnetic Compatibility, Volume 47, Issue 4, Nov. 2005, pp:763 - 773.

78.      Vouvakis, M.N.; Kezhong Zhao; Jin-Fa Lee, Finite-element analysis of infinite periodic structures with nonmatching triangulations, IEEE Transactions on Magnetics, Volume: 42,Issue: 4,April 2006,pp: 691- 694

79.      Venkatarayalu, N.V.; Jin-Fa Lee, Removal of spurious DC modes in edge element solutions for modeling three-dimensional resonators, IEEE Transactions on Microwave Theory and Techniques, Volume: 54, Issue: 7, July 2006,pp: 3019- 3025

80.     M. Vouvakis^*, Z. Cendes, and J. F. Lee, A FEM Domain Decomposition Method for Photonic and Electromagnetic Band Gap Structures, IEEE Trans. Ant. Prop. Volume 54, Issue 2, Part 2, Feb. 2006, pp:721 - 733.

81.      K. Zhao, M. Vouvakis and J. F. Lee, Solving Electromagnetic Problems Using a Novel Symmetric FEM-BEM Approach. IEEE Transactions on Magnetics, Volume 42, Issue 4, April 2006, pp:583 - 586.

 Editor-Reviewed Journal Articles:

1.        J. F. Lee and R. Dyczij-Edlinger, Automatic Mesh Generation using a Modified Delaunay Tessellation, IEEE ANTENNA PROPAG. MAGAZINE 39: (1) 34-45, FEB. 1997.

2.      Y. Srisukh^*, J. Nehrbass, F. L. Teixeira, J. F. Lee, R. Lee, An approach for automatic grid generation in three-dimensional FDTD simulations of complex geometries, IEEE Antennas and Propagation Magazine, 44: (4) 75-80, Aug. 2002.

3.        J. F. Lee, Tangential Vector Finite Element Methods and Their Application to Solving EM Scattering Problems, Invited tutorial paper.