Computational electrodynamics. Finite Difference Time Domain Method by Allen Taflove

Computational electrodynamics. Finite Difference Time Domain Method



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Computational electrodynamics. Finite Difference Time Domain Method Allen Taflove ebook
Format: djvu
Page: 611
ISBN: 0890068348, 9780890068342
Publisher: Artech House Inc


This book consists of contributions given in honor of Wolfgang J.R. We calculate optical near fields generated by a periodically structured 50-nm-wide slit array of a 50-nm-thick gold film with a finite difference time domain method. It solves the Maxwell equations in 3D in the time domain using the finite-difference time-domain (FDTD) method. The implementation is based on the Finite-Difference Time-Domain method for transient analysis, and the Finite Element Method for electrostatics. The numerical results demonstrate that light intensity at the focal point is 8.6 dB The results indicate potential applicability of wideband-focusing devices in electromagnetics and photonics using compact resonance elements. The present paper describes an optimized C++ library for the study of electromagnetics. Computational Electrodynamics The Finite-Difference Time-Domain Method book download Download Computational Electrodynamics The Finite-Difference Time-Domain Method The Finite-Difference Time-Domain Method,. 459.GemsFDTD, Fortran-90, Computational Electromagnetics. The spatially infinite reflector model is simulated with a finite-element method, whereas the spatially finite reflector is treated with a finite-difference-time-domain method. Computational Electromagnetics (CEM), has emerged as a crucial enabling technology for radio-frequency, microwave and wireless engineering. Computational Electrodynamics The Finite-Difference Time-Domain Method (Antennas & Propagation Library) | Books. Hagness: Computational Electrodynamics: The Finite-Difference Time-Domain Method (Artech House, Boston/London, 2005) 3rd ed. Efficiencies of the electric quadrupole (E2) and magnetic dipole (M1) transitions, which A. Finite Difference Time Domain (FDTD) method is used to calculate the current densities induced in a 1 cm resolution anatomically based model with proper tissue conductivities. It uses classical theory of finite elements. Taflove, Advances in computational electrodynamics: The finite difference time-domain method, Artech House, 1998. Twenty different tissues have been considered in The model is manually prepared by converting MRI images of a 46-year old man with the height of 178 cm into suitable matrixes of electrical properties of computational space to be used in FDTD algorithm.

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