Allen Taflove
Allen Taflove
Professor of Electrical and Computer Engineering, Northwestern University
Verified email at ece.northwestern.edu - Homepage
Title
Cited by
Cited by
Year
Computational Electrodynamics: The Finite-Difference Time-Domain Method
A Taflove, SC Hagness
Znd ed., Boston: Artech House, 2000
20108*2000
Numerical solution of steady-state electromagnetic scattering problems using the time-dependent Maxwell's equations
A Taflove, ME Brodwin
IEEE transactions on microwave theory and techniques 23 (8), 623-630, 1975
16851975
Photonic nanojet enhancement of backscattering of light by nanoparticles: a potential novel visible-light ultramicroscopy technique
Z Chen, A Taflove, V Backman
Optics express 12 (7), 1214-1220, 2004
6552004
A novel method to analyze electromagnetic scattering of complex objects
K Umashankar, A Taflove
IEEE transactions on electromagnetic compatibility, 397-405, 1982
6521982
Two-dimensional FDTD analysis of a pulsed microwave confocal system for breast cancer detection: Fixed-focus and antenna-array sensors
SC Hagness, A Taflove, JE Bridges
IEEE Transactions on Biomedical Engineering 45 (12), 1470-1479, 1998
5891998
Application of the finite-difference time-domain method to sinusoidal steady-state electromagnetic-penetration problems
A Taflove
IEEE Transactions on electromagnetic compatibility, 191-202, 1980
5781980
FD-TD modeling of digital signal propagation in 3-D circuits with passive and active loads
M Piket-May, A Taflove, J Baron
IEEE Trans. Microwave Theory Tech 42, 1514-1523, 1994
5351994
Validation and extension to three dimensions of the Berenger PML absorbing boundary condition for FD-TD meshes
DS Katz, ET Thiele, A Taflove
IEEE microwave and guided wave letters 4 (8), 268-270, 1994
5111994
Direct time integration of Maxwell’s equations in linear dispersive media with absorption for scattering and propagation of femtosecond electromagnetic pulses
RM Joseph, SC Hagness, A Taflove
Optics Letters 16, 1412-1414, 1991
4931991
Method for in situ heat processing of hydrocarbonaceous formations
J Bridges, A Taflove, R Snow
US Patent 4,140,180, 1979
4771979
Apparatus and method for in situ heat processing of hydrocarbonaceous formations
J Bridges, A Taflove
US Patent 4,144,935, 1979
4251979
Finite-difference time-domain modeling of curved surfaces
TG Jurgens, A Taflove, K Umashankar, TG Moore
Antennas and Propagation, IEEE Transactions on 40 (4), 357-366, 1992
4201992
Review of the formulation and applications of the finite-difference time-domain method for numerical modeling of electromagnetic wave interactions with arbitrary structures
A Taflove
Wave Motion 10 (6), 547-582, 1988
3871988
Single well stimulation for the recovery of liquid hydrocarbons from subsurface formations
JE Bridges, A Taflove, GC Sresty
US Patent 4,524,827, 1985
3811985
Electromagnetic scattering by arbitrary shaped three-dimensional homogeneous lossy dielectric objects
K Umashankar, A Taflove, S Rao
IEEE Transactions on Antennas and Propagation 34 (6), 758-766, 1986
3661986
Calculation and experimental validation of induced currents on coupled wires in an arbitrary shaped cavity
K Umashankar, A Taflove, B Beker
IEEE Transactions on Antennas and Propagation 35 (11), 1248-1257, 1987
3601987
Three-dimensional FDTD analysis of a pulsed microwave confocal system for breast cancer detection: Design of an antenna-array element
SC Hagness, A Taflove, JE Bridges
IEEE Transactions on Antennas and Propagation 47 (5), 783-791, 1999
3501999
Detailed FD-TD analysis of electromagnetic fields penetrating narrow slots and lapped joints in thick conducting screens
A Taflove, KR Umashankar, B Beker, F Harfoush, KS Yee
IEEE Transactions on Antennas and Propagation 36 (2), 247-257, 1988
3371988
Optical analysis of nanoparticles via enhanced backscattering facilitated by 3-D photonic nanojets
X Li, Z Chen, A Taflove, V Backman
Optics express 13 (2), 526-533, 2005
3282005
Computation of the electromagnetic fields and induced temperatures within a model of the microwave-irradiated human eye
A Taflove, ME Brodwin
IEEE Transactions on Microwave Theory and Techniques 23 (11), 888-896, 1975
3221975
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