Numerical solutions using well-developed and tested finite-difference codes are presented with the goal being to illustrate the power and flexibility of the numerical solvers, especially as compared to analytical methods
Bibliography: p. 36.Contract AF33 (616)-6079, Project no. 9-(13-6278) Task 40572. Sponsored by Wrigh...
The complex nature of solving microwave circuit problems with their many varied boundary conditions,...
This paper presents an overview of the acoustic wave equation and the common time-domain numerical s...
Numerical solutions using well-developed and tested finite-difference codes are presented with the g...
There the purpose is to develop the effective computing algorithms of complex waveguide systemsAvail...
AbstractApplication of finite-difference (FDM) and finite-element (FEM) methods for the analysis of ...
The high frequency communication and high-speed electronic industries are demanding increasingly mor...
The high frequency communication and high-speed electronic industries are demanding increasingly mor...
[[abstract]]A numerical procedure using the finite-difference scheme and the shifted power method is...
This paper discusses numerical analysis methods for different geometrical features that have limited...
This thesis explains and implements the Finite Difference Method to simulate for the ...
The electromagnetic characteristics of microwave circuits can be described by the scattering matrix....
The Finite Difference Time Domain (FDTD) technique consists of simulating time varying electromagnet...
Two Krylov subspace-based methods are used to solve the sparse matrix generated by the finite differ...
Highly efficient active Integrated Optical waveguides are currently deeply investigated both theoret...
Bibliography: p. 36.Contract AF33 (616)-6079, Project no. 9-(13-6278) Task 40572. Sponsored by Wrigh...
The complex nature of solving microwave circuit problems with their many varied boundary conditions,...
This paper presents an overview of the acoustic wave equation and the common time-domain numerical s...
Numerical solutions using well-developed and tested finite-difference codes are presented with the g...
There the purpose is to develop the effective computing algorithms of complex waveguide systemsAvail...
AbstractApplication of finite-difference (FDM) and finite-element (FEM) methods for the analysis of ...
The high frequency communication and high-speed electronic industries are demanding increasingly mor...
The high frequency communication and high-speed electronic industries are demanding increasingly mor...
[[abstract]]A numerical procedure using the finite-difference scheme and the shifted power method is...
This paper discusses numerical analysis methods for different geometrical features that have limited...
This thesis explains and implements the Finite Difference Method to simulate for the ...
The electromagnetic characteristics of microwave circuits can be described by the scattering matrix....
The Finite Difference Time Domain (FDTD) technique consists of simulating time varying electromagnet...
Two Krylov subspace-based methods are used to solve the sparse matrix generated by the finite differ...
Highly efficient active Integrated Optical waveguides are currently deeply investigated both theoret...
Bibliography: p. 36.Contract AF33 (616)-6079, Project no. 9-(13-6278) Task 40572. Sponsored by Wrigh...
The complex nature of solving microwave circuit problems with their many varied boundary conditions,...
This paper presents an overview of the acoustic wave equation and the common time-domain numerical s...
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