An iterative method for modeling of antennas

## Abstract This paper presents an iterative method based on the wave concept for investigation of structures including Non‐linear components. The principle of the iterative method consists to establishing a relationship between incident and reflected waves in order to characterize the studied stru

Flow in a multiaquifer porous system can be simulated by the so-called "quasi three-dimensional" models. When heterogeneous and/or aquitards with nonlinear hydrogeologic behavior are considered, a fully numerical approach is required for the model solution. If the finite element method is used to in

Dynamic condensation techniques have been broadly applied to the domains of testanalysis-model correlation, vibration control, damage detection and so on to reduce the structural matrices (sti!ness, mass and/or damping matrices) of "nite element models. Based on the subspace iteration method in the

## Abstract An absorbing fictitious boundary condition (FBC) is presented to generate an iterative domain decomposition method (DDM) for analyzing waveguide problems. The FBC for connecting the subdomains on a fictitious boundary is developed according to the actual field distribution in the wavegu

The nonreciprocal phenomena of a gyrotropic thin-film waveguide with a grating configuration have been analyzed by the singular perturbation technique with multiple space scales. The analyzed structure can perform both as a grating coupler and an isolator. With low gyrotropy, the beam deflection is