Results 221 to 230 of about 113,158 (265)
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Lobachevskii Journal of Mathematics, 2019
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Kurseeva, V. Yu., Smirnov, Yu. G.
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zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Kurseeva, V. Yu., Smirnov, Yu. G.
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Fifth International Conference on Actual Problems of Electron Devices Engineering, 2003
The solution of the problem of propagation of the spherical converging and diverging electromagnetic waves, and also of the standing spherical electromagnetic waves in the special situations, when in line with the polar axis of a spherical coordinate system is present either the ideally conducting filament, or system of the two cone ideally conducting ...
Yu.A. Zyuryukin, M.V. Pavlova
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The solution of the problem of propagation of the spherical converging and diverging electromagnetic waves, and also of the standing spherical electromagnetic waves in the special situations, when in line with the polar axis of a spherical coordinate system is present either the ideally conducting filament, or system of the two cone ideally conducting ...
Yu.A. Zyuryukin, M.V. Pavlova
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Journal of Communications Technology and Electronics, 2011
The dispersion equation for the problem of propagation of TM-polarized electromagnetic waves in a Kerr nonlinear layer is presented. The propagation constants are calculated. Qualitative differences of the dispersion curves in the nonlinear and linear cases are demonstrated.
D. V. Valovik, Yu. G. Smirnov
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The dispersion equation for the problem of propagation of TM-polarized electromagnetic waves in a Kerr nonlinear layer is presented. The propagation constants are calculated. Qualitative differences of the dispersion curves in the nonlinear and linear cases are demonstrated.
D. V. Valovik, Yu. G. Smirnov
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IEEE Transactions on Magnetics, 2010
A highly parallel implementation of Maxwell's equations in the time domain using a cluster of Graphics Processing Units (GPUs) is presented. The higher-order Discontinuous Galerkin Finite Element Method (DG-FEM) is used for spatial discretization since its characteristics are matching the parallelization design aspects of the NVIDIA Compute Unified ...
Nico Godel +3 more
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A highly parallel implementation of Maxwell's equations in the time domain using a cluster of Graphics Processing Units (GPUs) is presented. The higher-order Discontinuous Galerkin Finite Element Method (DG-FEM) is used for spatial discretization since its characteristics are matching the parallelization design aspects of the NVIDIA Compute Unified ...
Nico Godel +3 more
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Physics and Chemistry of the Earth, Parts A/B/C, 2006
Abstract This paper presents a further development of mathematical model, an asymptotic theory and an appropriate numerical algorithm to study the vector VLF point source field propagation problem within the non-uniform Earth–ionosphere waveguide.
O.V. Soloviev +2 more
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Abstract This paper presents a further development of mathematical model, an asymptotic theory and an appropriate numerical algorithm to study the vector VLF point source field propagation problem within the non-uniform Earth–ionosphere waveguide.
O.V. Soloviev +2 more
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Computational Mathematics and Mathematical Physics, 2009
Summary: A method is proposed for solving the boundary value problem of electromagnetic waves propagating in an open dielectric waveguide with an arbitrary cross section. The method combines the representation of solutions in the form of a continuous spectrum, the Fourier integral method, and the Galerkin variational procedure.
RaevskiÄ, S. B., Titarenko, A. A.
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Summary: A method is proposed for solving the boundary value problem of electromagnetic waves propagating in an open dielectric waveguide with an arbitrary cross section. The method combines the representation of solutions in the form of a continuous spectrum, the Fourier integral method, and the Galerkin variational procedure.
RaevskiÄ, S. B., Titarenko, A. A.
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2019 Radiation and Scattering of Electromagnetic Waves (RSEMW), 2019
The application of the wave catastrophe theory to tasks of radiowave propagation, focusing and diffraction is considered.
Andrew S. Kryukovsky +3 more
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The application of the wave catastrophe theory to tasks of radiowave propagation, focusing and diffraction is considered.
Andrew S. Kryukovsky +3 more
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2012 International Conference on Mathematical Methods in Electromagnetic Theory, 2012
Problem of propagation of TM-polarized electromagnetic waves in nonlinear dielectric waveguide with circular cross-section is considered. Waveguide filled nonlinear media with Kerr law. The problem is reduced to the nonlinear eigenvalue. Numerical results are presented.
E. Yu. Smolkin, D. V. Valovik
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Problem of propagation of TM-polarized electromagnetic waves in nonlinear dielectric waveguide with circular cross-section is considered. Waveguide filled nonlinear media with Kerr law. The problem is reduced to the nonlinear eigenvalue. Numerical results are presented.
E. Yu. Smolkin, D. V. Valovik
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Wave Motion, 1998
Abstract Two main self-consistent schemes (the effective field and effective medium methods) are applied for the calculation of phase velocities and attenuation factors of plane monochromatic electromagnetic waves in dielectric media with random sets of spherical inclusions.
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Abstract Two main self-consistent schemes (the effective field and effective medium methods) are applied for the calculation of phase velocities and attenuation factors of plane monochromatic electromagnetic waves in dielectric media with random sets of spherical inclusions.
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