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Program19 2D FDTD Unitless Open Boundary Suboptimal Courant factor

version 1.0.0.0 (3.33 KB) by Computational Electromagnetics At IIT Madras
2D FDTD with courant stability factor given a suboptimal value of 0.9*(1/sqrt(2)).

357 Downloads

Updated 09 Feb 2012

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Youtube Links :-
http://www.youtube.com/watch?v=mPTzmrfgtYU
http://www.youtube.com/watch?v=4I4UYuNgvsE

Written for Course :-
Computational Electromagnetics, Fall 2011
Department of Electrical Engineering
Indian Institute of Technology Madras (IITM)
Chennai - 600036, India

Authors :-
Sathya Swaroop Ganta, B.Tech., M.Tech. Electrical Engg.
Kayatri, M.S. Engineering Design
Pankaj, M.S. Electrical Engg.
Sumantra Chaudhuri, M.S. Electrical Engg.
Projesh Basu, M.S. Electrical Engg.
Nikhil Kumar CS, M.S. Electrical Engg.

Instructor :-
Dr. Ananth Krishnan
Assistant Professor
Department of Electrical Engineering
Indian Institute of Technology Madras
http://www.ee.iitm.ac.in/~ananthk

Description :-
A 2D TM wave containing the xy-plane polarized magnetic field having components Hy and Hx and z-polarized electric field Ez. The fields are updated at every timestep, in a unitless space, where all physical parameters of free space are normalized to 1. The update is done using standard update equations obtained from the difference form of Maxwell's curl equations. The field points are defined in a grid described by Yee's algorithm. The H fields are defined at every half coordinate of spacesteps. More precisely, the Hx part is defined at every half y-coordinate and full x-coordinate and the Hy part is defined at every half x-coordinate and full y-coordinate and E fields i.e the Ez part is defined at every full x and full y-coordinate points. Also, the time update is done using Leapfrog time-stepping. Here, H-fields i.e Hx and Hy are updated every half time-step and E fields i.e Ez are updated every full time-step. This is shown by three alternating for-loop updates in groups of two (for H) and one (for E) spanning entire spatial grid inside a main for-loop for time update spanning the entire time-grid. The courant stability factor is given a suboptimal value of 0.9*(1/sqrt(2)).

Cite As

Computational Electromagnetics At IIT Madras (2021). Program19 2D FDTD Unitless Open Boundary Suboptimal Courant factor (https://www.mathworks.com/matlabcentral/fileexchange/35000-program19-2d-fdtd-unitless-open-boundary-suboptimal-courant-factor), MATLAB Central File Exchange. Retrieved .

MATLAB Release Compatibility
Created with R2011a
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