DocumentCode
1291789
Title
Efficient Implicit–Explicit Time Stepping Scheme With Domain Decomposition for Multiscale Modeling of Layered Structures
Author
Jiefu Chen ; Tobon, Luis Eduardo ; Mei Chai ; Mix, Jason A. ; Qing Huo Liu
Author_Institution
Dept. of Electr. & Comput. Eng., Duke Univ., Durham, NC, USA
Volume
1
Issue
9
fYear
2011
Firstpage
1438
Lastpage
1446
Abstract
An efficient time-domain technique is proposed for multiscale electromagnetic simulations of layered structures. Each layer of a layered structure is independently discretized by finite elements, and the discontinuous Galerkin method is employed to stitch all discretized subdomains together. The hybrid implicit-explicit Runge-Kutta scheme combined with subdomain-based Gauss-Seidel iteration is employed for time stepping. The block Thomas algorithm is utilized to accelerate time stepping for block tri-diagonal systems, which are frequently encountered in discretized layered structures. Numerical examples demonstrate that the proposed method is efficient in simulating multiscale layered structures.
Keywords
Galerkin method; Runge-Kutta methods; electromagnetic field theory; finite element analysis; iterative methods; Runge-Kutta scheme; discontinuous Galerkin method; discretized subdomains; domain decomposition; efficient implicit-explicit time stepping scheme; finite elements; layered structures; multiscale electromagnetic simulations; multiscale modeling; subdomain-based Gauss-Seidel iteration; time-domain technique; Equations; Finite element methods; Mathematical model; Moment methods; Permittivity; Time domain analysis; Transmission line matrix methods; Block Gauss–Seidel iteration; block Thomas algorithm; discontinuous Galerkin finite-element time-domain method; implicit–explicit Runge–Kutta scheme; layered structure; multiscale simulation; riemann solver;
fLanguage
English
Journal_Title
Components, Packaging and Manufacturing Technology, IEEE Transactions on
Publisher
ieee
ISSN
2156-3950
Type
jour
DOI
10.1109/TCPMT.2011.2162726
Filename
5976432
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