Journal
SIAM JOURNAL ON NUMERICAL ANALYSIS
Volume 48, Issue 4, Pages 1530-1554Publisher
SIAM PUBLICATIONS
DOI: 10.1137/090765857
Keywords
three-dimensional Maxwell's equation; energy-conserved algorithm; splitting; finite-difference time-domain; unconditionally stable; second order; optimal estimate
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Funding
- National Basic Research Program [2005CB321701]
- Natural Science Foundation of Shanghai [10ZR1403400]
- Ministry of Education of China
- State Administration of Foreign Experts Affairs of China [B08018]
- National Talents Training Base for Basic Research and Teaching of Natural Science of China [J0730103]
- Natural Sciences and Engineering Research Council of Canada
- Key Laboratory of Mathematics for Nonlinear Sciences, Fudan University [EYH1140070]
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In this paper, we develop and analyze efficient energy-conserved splitting finite-difference time-domain (FDTD) schemes for solving three dimensional Maxwell's equations in electromagnetic computations. All proposed energy-conserved splitting finite-difference time-domain (EC-S-FDTD) algorithms are strictly proved to be energy-conserved and unconditionally stable, and they can be computed efficiently. Rigorous convergence results are obtained for the schemes. The EC-S-FDTDII schemes are proved to have second order in both time step and spatial steps, while the EC-S-FDTDI schemes have second order in spatial steps and first order in time step. The error estimates are optimal, and especially the constant in the error estimates is proved to be only O( T). Numerical experiments confirm the theoretical analysis results.
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