Electrostatic simulation using XFEM for conductor and dielectric interfaces

Mode charts ha¨e been extracted for dielectric resonators in cylindrical and rectangular ca¨ities and conductor-loaded planar ca¨ities using the rectangular coordinate FDTD algorithm. A modal extraction procedure is applied to obtain the time-domain samples, and the matrix-pencil method is applied t

## Abstract In this paper, an incremental‐secant modulus iteration scheme using the extended/generalized finite element method (XFEM) is proposed for the simulation of cracking process in quasi‐brittle materials described by cohesive crack models whose softening law is composed of linear segments.

This article focuses on the design and simulation of a new component for analog beamforming based on the Butler labyrinth. The proposed component enables the analysis of four-antenna beamforming in systems with two receive channels. The problem was to design a component that would enable simulation

We present a new simulation code for electrostatic waves in one dimension which uses the Vlasov equation to integrate the distribution function and Ampère's equation to integrate the electric field forward in time. Previous Vlasov codes used the Vlasov and Poisson equations. Using Ampère's equation