Abstract
In this paper we develop the parallel numerical algorithm for modelling of electromagnetic properties of thin conductive layers. The explicit finite difference scheme is obtained after approximation of the system of differential equations on the staggered grid. The parallelization of the discrete algorithm is based on the domain decomposition method. The tool of parallel linear algebra objects ParSol is used to get a semiautomatical implementation of this parallel algorithm on distributed memory computers. Some results of numerical simulations are presented and the efficiency of the proposed parallel algorithm is investigated.
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References
Ašmontas, S.: Electrogradient Phenomena in Semiconductors, Vilnius, Mokslas (1984) (in Russian)
Ašmontas, S., Gradauskas, J., Kozic, A., Shtrikmann, H., Sužiedelis, A.: Submicrometric heavily doped n-GaAs structures for microwave detection. Acta Phys. Pol. A 107(1), 147–150 (2005)
Ašmontas, S., Gradauskas, J., Sužiedelis, A., Valušis, G.: Submicron semiconductor structures for microwave detection. Microelectronic Engineering 53, 553–556 (2000)
Čiegis, R., Čiegis, R., Jakušev, A., Šaltenienė, G.: Parallel variational iterative algorithms for solution of linear systems. Mathematical Modelling and Analysis 12(1), 1–16 (2007)
Čiegis, R., Radziunas, M., Lichtner, M.: Numerical algorithms for simulation of multisection lasers by using traveling wave model. Mathematical Modelling and Analysis 13(3), 327–348 (2008)
Jakušev, A., Čiegis, R., Laukaitytė, I., Trofimov, V.: Parallelization of linear algebra algoritms using ParSol library of mathematical objects. In: Čiegis, R., Henty, D., Kagstrom, B., Žilinskas, J. (eds.) Parallel Scientific Computing and Optimization. Advances and Applications. Springer Optimization and Its Applications, vol. 27, pp. 25–36 (2009)
Kancleris, Ž., Tamošūnas, V., Dagys, M., Simniškis, R., Agee, F.: Interaction of a semiconductor sample partly filling a waveguide’s window with milimeter wave radiation. IEE Proc. Microw. Antennas Propag. 152(4), 240–244 (2005)
Yee, K.S.: Numerical solution of initial boundary problems involving Maxwell’s equation in isotropic media. IEEE Trans. Antennas Propagation 14(3), 302–307 (1966)
Laukaitytė, I., Čiegis, R.: Finite-difference scheme for one problem of nonlinear optics. Mathematical Modelling and Analysis 13(2), 211–222 (2008)
Maloney, J.G., Smith, G.S.: The efficient modelling of thin material sheets in the FDTD method. IEEE Trans. Antennas and Propagation 40, 323–330 (1992)
Seliuta, D., Širmulis, E., Tamošiūnas, V., Balakauskas, S., et al.: Detection of terahertz/ sub-terahertz radiation by asymmetrically-shaped 2DEG layers. Electronics Letters 40(10), 631–632 (2004)
Seliuta, D., Kašalynas, I., Tamošiūnas, V., Balakauskas, S., et al.: Silicon lens-coupled bow-tie InGaAs-based broadband terahertz sensor operating at room temperature. Electronics Letters 42(14), 825–827 (2006)
Taflove, A., Hagness, S.: Computational Electrodynamics: The Finite-Difference Time-Domain Method. Artech House, Norwood (2000)
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Čiegis, R., Kancleris, Ž., Šlekas, G. (2010). Parallel Numerical Solver for Modelling of Electromagnetic Properties of Thin Conductive Layers. In: Wyrzykowski, R., Dongarra, J., Karczewski, K., Wasniewski, J. (eds) Parallel Processing and Applied Mathematics. PPAM 2009. Lecture Notes in Computer Science, vol 6068. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-14403-5_34
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DOI: https://doi.org/10.1007/978-3-642-14403-5_34
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-14402-8
Online ISBN: 978-3-642-14403-5
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