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Pages: 36-40.

Abstract:
The work is devoted to the application of a differential approach to solving Maxwell's equations and the wave equation for simulating the process of propagation of an electromagnetic H-wave through a two-dimensional dielectric grating. A comparison with the well-known simulation method (differential method) is performed, the advantages and disadvantages of both approaches are highlighted.

Keywords:
H-wave diffraction, two-dimensional grating, Maxwell's equation, wave equation, differential method.

Citation:
KGolovashkin DL, Kazansky NL, Safina VN. Use of the finite-difference method for solving the problem of H-wave diffraction by two-dimensional dielectric gratings. Computer Optics 2003; 25: 36-40.

1. Petit R, ed. Electromagnetic theory on gratings. New York: Springer-Verlag; 1980.
2. Ichikawa H. Electromagnetic analysis of diffraction gratings by the finite-difference time-domain method. J Opt Soc Am A 1998; 15(1): 152-157.
3. Yee KS. Numerical solution of initial boundary value problems involving Maxwell’s equations in isotropic media. IEEE Trans Antennas Propag 1966; AP-14: 302-307.
4. Neganov VA, Raevskii SB, Yarovoi GP. Linear macroscopic electrodynamics. Moscow: "Radio i Svyaz" Publisher; 2000.
5. Bers L, John F, Schechter M. Partial differential equations. Providence, Rhode Island: American Mathematical Society; 1964.
6. Berenger J-P. A perfectly matched layer for the absorption of electromagnetic waves. J Comput Phys 1994; 114: 185-200.
7. Mur G. Absorbing boundary conditions for the finite-difference approximation of the time-domain electromagnetic-field equations. IEEE Trans Electromagn Compat 1981; EMC-23: 377-382.

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