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This extensively revised and expanded third edition of the Artech
House bestseller, Computational Electrodynamics: The
Finite-Difference Time-Domain Method, offers engineers the most
up-to-date and definitive resource on this critical method for
solving Maxwell's equations. The method helps practitioners design
antennas, wireless communications devices, high-speed digital and
microwave circuits, and integrated optical devices with unsurpassed
efficiency. There has been considerable advancement in FDTD
computational technology over the past few years, and the third
edition brings professionals the very latest details with entirely
new chapters on important techniques, major updates on key topics,
and new discussions on emerging areas such as nanophotonics. What's
more, to supplement the third edition, the authors have created a
Web site with solutions to problems, downloadable graphics and
videos, and updates, making this new edition the ideal textbook on
the subject as well.
Written by the pioneer and foremost authority on the subject, this
new book is both a comprehensive university textbook and
professional/research reference on the finite-difference
time-domain (FD-TD) computational solution method for Maxwell's
equations. It presents in-depth discussions of: The revolutionary
Berenger PML absorbing boundary condition; FD-TD modelling of
nonlinear, dispersive, and gain optical materials used in lasers
and optical microchips; unstructured FD-TD meshes for modelling of
complex systems; 2.5-dimensional body-of-revolution FD-TD
algorithms; Linear and nonlinear electronic circuit models,
including a seamless tie-in to SPICE; Digital signal postprocessing
of FD-TD data; FD-TD modelling of microlaser cavities; and FD-TD
software development for the latest Intel and Cray massively
parallel computers.
A self-study tutorial which presents the fundamental principles and
rigorous numerical validations of a major contemporary branch in
frequency-domain computational electromagnetics.
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