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| 2 | D. S. Katz, A. Taflove, M. J. Piket-May, and K. R. Umashankar, "FDTD analysis of electromagnetic wave radiation from systems containing horn antennas", IEEE Trans. Antennas Propagat., vol. 39, pp. 1203-1212, 1991. DOI |
| 3 | P. A. Tirkas, C. A. Balanis, "Finite-difference time-domain technique for radiation by horn antennas", Proc. 1991 IEEE Antennas Propagat. Soc. Intl. Symp., vol. 3, pp. 1750-1753, 1991. |
| 4 | E. Sano, T. Shibata, "Fullwave analysis of picosecond photoconductive switches", IEEE J. Quantum Electron., vol. 26, pp. 372-377, 1990. DOI |
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| 7 | P. M. Goorjian, A. Taflove, "Direct time integration of Maxwell's equations in nonlinear dispersive media for propagation and scattering of femtosecond electromagnetic solitons", Optics Lett., vol. 17, pp. 180-182, 1992. DOI |
| 8 | R. W. Ziolkowski and J. B. Jerkins, "Full-wave vector Maxwell's equations modeling of self-focusing of ultrashort optical pulses in a nonlinear Kerr medium exhibiting a finite response time", J. Optical Soc. America B, vol. 10, pp. 186-198, 1993. |
| 9 | R. M. Joseph, P. M. Goorjian, and A. Taflove, "Direct time integration of Maxwell's equations in 2-D dielectric waveguides for propagation and scattering of femtosecond electromagnetic solitons", Optics Lett., vol. 18, pp. 491-493, 1993. DOI |
| 10 | R. M. Joseph, A. Taflove, "Spatial soliton deflection mechansim indicated by FDTD Maxwell's equations modeling", IEEE Photonics Tech. Lett., vol. 2, pp. 1251-1254, 1994. |
| 11 | W. Sui, D. A. Christensen, and C. H. Durney, "Extending the two-dimensional FDTD method to hybrid electromagnetic systems with active and passive lumped elements", IEEE Trans. Microwave Theory Tech., vol. 40, pp. 724-730, 1992. DOI |
| 12 | B. Toland, B. Houshmand, and T. Itoh, "Modeling of nonlinear active regions with the FDTD method", IEEE Microwave Guided Wave Lett., vol. 3, pp. 333-335, 1993. DOI |
| 13 | V. A. Thomas, M. E. Jones, M. J. Piket-May, A. Taflove, and E. Harrigan, "The use of SPICE lumped circuits as sub-grid models for FDTD high-speed electronic circuit design", IEEE Microwave Guided Wave Lett., vol. 4, pp. 141-143, 1994. DOI |
| 14 | J. P. Berenger, "A perfectly matched layer for the absorption of electromagnetic waves", J. Comp. Phys., vol. 114, pp. 185-200, 1994. DOI |
| 15 | D. S. Katz, E. T. Thiele, and A. Taflove, "Validation and extension to three dimensions of the Berenger PML absorbing boundary condition for FDTD meshes", IEEE Microwave Guided Wave Lett., vol. 4, pp. 268-270, 1994. DOI |
| 16 | C. E. Reuter, R. M. Joseph, E. T. Thiele, D. S. Katz, and A. Taflove, "Ultrawideband absorbing boundary condition for termination of waveguideng structures in FDTD simulations", IEEE Microwave Guided Wave Lett., vol. 4, pp. 344-346, 1994. DOI |
| 17 | Q. H. Liu, "The pseudospectral time-domain(PSTD) method: A new algorithm for solutions of Maxwell's equations", Proc. 1997 IEEE Antennas Propagat. Soc. Intl. Symp., vol. 1, pp. 122-125, 1997. |
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| 19 | S. D. Gedney, "An anisotropic perfectly matched layer absorbing media for the truncation of FDTD lattices", IEEE Trans. Antennas Propagat., vol. 44, pp. 1630-1693, 1996. DOI |
| 20 | Q. H. Liu, The PSTD Algorithm: A Time Domain Method Requiring Only Two Grids Per Wavelength, New Mexco State Univ., Las Curces, NM, Tech. Rept, NMSU-ECE96013, 1996. |
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| 22 | S. Dey, R. Mittra, "A locally conformal finite-difference time-domain algorithm for modeling three-dimensional perfectly conducting objects", IEEE Microwave Guided Wave Lett., vol. 7, pp. 273-275, 1997. DOI |
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| 24 | A. S. Nagra, R. A. York, "FDTD analysis of wave propagation in nonlinear absorbing and gain media", IEEE Trans. Antennas Propagat., vol. 46, pp. 334-340, 1998. DOI |
| 25 | S. C. Hagness, A. Taflove, and J. E. Bridges, "Two-dimensional FDTD analysis of a pulsed microwave confocal system for breast cancer detection: Fixed-focus and antenna-array sensors", IEEE Trans. Biomed. Engrg., vol. 45, pp. 1470-1479, 1988. |
| 26 | T. Rylander, A. Bondeson, "Stable FDTD-FEM hybrid method for Maxwell's equations", Comput. Phys. Comm., vol. 125, pp. 75-82, 2000. DOI |
| 27 | J. B. Schneider, C. L. Wagner, "FDTD dispersion revisited: Faster-than-light propagation", IEEE Microwave Guided Wave Lett., vol 9, pp. 54-56, 1999. DOI |
| 28 | T. Namiki, "3-D ADI-FDTD method unconditionaly stable time-domain algorithm for solving full vector Maxwell's equations", IEEE Trans. Microwave Theory Tech., vol 48, pp. 1743-1748, 2000. DOI |
| 29 | F. Zheng, Z. Chen, and J. Zhang, "Toward the development of a three-dimensional unconditionally stable finitedifference time-domain method", IEEE Trans. Microwave Theory Tech., vol. 48, pp. 1550-1558, 2000. DOI |
| 30 | J. A. Roden, S. D. Gedney, "Convolutional PML(CPML): An efficient FDTD implementation of the CFS-PML for arbitrary media", Microwave Optical Tech. Lett., vol. 27, pp. 334-339, 2000. DOI |
| 31 | M. Hayakawa, T. Otsuyama, "FDTD analysis of ELF wave propagation in inhomogeneous subionospheric waveguide models", ACES J., vol. 17, pp. 239-244, 2002. |
| 32 | I. Ahmed, E. K. Chua, E. P. Li, and Z. Chen, "Development of the three-dimensional unconditionally stable LODFDTD method", IEEE Trans. Antennas Propagat., vol. 56, pp. 3596-3600, 2008. DOI |
| 33 | J. J. Simpson, A. Taflove, "Three-dimensional FDTD modeling of impulsive ELF propagation about the earth-sphere", IEEE Trans. Antennas Propagat., vol. 52, pp. 443-451, 2004. DOI |
| 34 | J. J. Simpson, R. P. Heikes, and A. Taflove, "FDTD modeling of a novel ELF radar for major oil deposits using a three-dimensional geodesic grid of the earth-ionosphere waveguide", IEEE Trans. Antennas Propagat., vol. 52, pp. 1734-1741, 2006. |
| 35 | H. De Raedt, K. Michielsen, J. S. Kole, and M. T. Figge, "Solving the Maxwell equations by the Chebyshev method: A one-step finite difference time-domain algorithm", IEEE Trans. Antennas Propagat., vol. 51, pp. 3155-3160, 2003. DOI |
| 36 | Y. Taniguchi, Y. Baba, N. Nagaoka and A. Ametani, "An improved thin wire represintation for FDTD computations", IEEE Trans. Antennas Propagat., vol. 56, pp. 3248-3252, 2008. DOI |
| 37 | R. M. S. de Oliveira, C. L. S. S. Sobrinho, "Computational environment for simulating lightning strokes in a power substation by finite-difference time-domain method", IEEE Trans. Electromagn. Compat., vol. 51, pp. 995-1000, 2009. DOI |
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| 39 | F. I. Moxley III, D. T. Chuss, and W. Dai, "A generalized finite-difference time-domain scheme for solving nonlinear Schrödinger equations", Comp. Phys. Comm., vol. 184, pp. 1834-1841, 2013. DOI |
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| 55 | W. Gwarek, "Analysis of an arbitrarily shaped planar circuit - A time-domain approach", IEEE Trans. Microwave Theory Tech., vol. 33, pp. 1067-1072, 1985. DOI |
| 56 | G. A. Kriegsmann, A. Taflove, and K. R. Umashankar, "A new formulation of electromagnetic wave scattering using an on-surface radiation boundary condition approach", IEEE Trans. Antennas Propagat., vol. 35, pp. 153-161, 1987. DOI |
| 57 | T. G. Moore, J. G. Blaschak, A. Taflove, and G. A. Kriegsmann, "Theory and application of radiation boundary operators", IEEE Trans. Antennas Propagat., vol. 36, pp. 1797-1812, 1988. DOI |
| 58 | K. R. Umashankar, A. Taflove, and B. Beker, "Calculation and experimental validation of induced currents on coupled wires in an arbitrary shaped cavity", IEEE Trans. Antennas Propagat., vol. 35, pp. 1248-1257, 1987. DOI |
| 59 | A. Taflove, K. R. Umashnakar, B. Beker, F. A. Harfoush, and K. S. Yee, "Detailed FDTD analysis of electromagnetic fields penetrating narrow slots and lapped joints in thick conducting screens", IEEE Trans. Antennas Propagat., vol. 36, pp. 247-257, 1988. DOI |
| 60 | T. G. Jurgens, A. Taflove, K. R. Umashankar, and T. G. Moore, "Finite-difference time-domain modeling of curved surface", IEEE Trans. Antennas Propagat., vol. 40, pp. 357-366, 1992. DOI |
| 61 | D. M. Sullivan, O. P. Gandhi, and A. Taflove, "Use of the finite-difference time-domain method in calculating EM absorption in man models", IEEE Trans. Biomed. Engrg., vol. 35, pp. 179-186, 1988. DOI |
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| 67 | T. Kashiwa, I. Fukai, "A treatment by FDTD method of dispersive characteristics associated with electronic polarization", Microwave Optics Tech. Lett., vol. 3, pp. 203-205, 1990. DOI |
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