The design of microwave circuits requires detailed knowledge on the electromagnetic properties of the transmission lines used. This can be obtained by applying Maxwell’s equations to a longitudinally homogeneous waveguide structure, which results in an eigenvalue problem for the propagation constant. Special attention is paid to the so‐called perfectly matched layer boundary conditions (PML). Using the finite integration technique we get an algebraic formulation. The finite volume of the PML introduces additional modes that are not an intrinsic property of the waveguide. In the presence of losses or absorbing boundary conditions the matrix of the eigenvalue problem is complex. A method which avoids the computation of all eigenvalues is pres...
In this paper the algorithm of finding eigenvalues and eigenfunctions for the leaky modes in a three...
The properties of microwave circuits and optical structures can be described in terms of their scatt...
In the recent past we introduced a new approach for the analysis of the propagation of hybrid modes ...
Design of microwave circuits requires detailed knowledge on the electromagnetic properties of the tr...
Finite-difference analysis of transmission lines including lossy materials and radiation effects lea...
Finite-difference analysis of transmission lines including lossy materials and radiation effects lea...
The field distribution at the ports of the transmission line structure is computed by applying Maxwe...
The field distribution at the ports of the transmission line structure is computed by applying Maxwe...
The field distribution at the ports of the transmission line structure is computed by applying Maxwe...
The properties of microwave circuits and optical structures can be described in terms of their scatt...
The scattering matrix describes monolithic microwave integrated circuits that are connected to trans...
The electromagnetic properties of microwave transmission lines can be described using Maxwell's equa...
Maxwell equations are solved in a layer comprising a finite number of homogeneous isotropic dielectr...
The scattering matrix describes monolithic microwave integrated circuits that are connected to trans...
Many hybrid modes are required in computing the fields scattered from discontinuities in structures ...
In this paper the algorithm of finding eigenvalues and eigenfunctions for the leaky modes in a three...
The properties of microwave circuits and optical structures can be described in terms of their scatt...
In the recent past we introduced a new approach for the analysis of the propagation of hybrid modes ...
Design of microwave circuits requires detailed knowledge on the electromagnetic properties of the tr...
Finite-difference analysis of transmission lines including lossy materials and radiation effects lea...
Finite-difference analysis of transmission lines including lossy materials and radiation effects lea...
The field distribution at the ports of the transmission line structure is computed by applying Maxwe...
The field distribution at the ports of the transmission line structure is computed by applying Maxwe...
The field distribution at the ports of the transmission line structure is computed by applying Maxwe...
The properties of microwave circuits and optical structures can be described in terms of their scatt...
The scattering matrix describes monolithic microwave integrated circuits that are connected to trans...
The electromagnetic properties of microwave transmission lines can be described using Maxwell's equa...
Maxwell equations are solved in a layer comprising a finite number of homogeneous isotropic dielectr...
The scattering matrix describes monolithic microwave integrated circuits that are connected to trans...
Many hybrid modes are required in computing the fields scattered from discontinuities in structures ...
In this paper the algorithm of finding eigenvalues and eigenfunctions for the leaky modes in a three...
The properties of microwave circuits and optical structures can be described in terms of their scatt...
In the recent past we introduced a new approach for the analysis of the propagation of hybrid modes ...