SIAM Journal on Applied Mathematics, Vol. 59, No. 6 (Aug. - Oct., 1999), pp. 2028-2044 (17 pages) It is well known that in the case of a regular domain the solution of the time-harmonic Maxwell's ...

SIAM Journal on Numerical Analysis, Vol. 41, No. 5 (2004), pp. 1682-1708 (27 pages) In this paper, we propose a nonoverlapping domain decomposition method for solving the three-dimensional Maxwell ...

Discontinuous Galerkin methods represent a powerful and flexible class of finite element techniques that have gained prominence in the simulation of wave propagation phenomena governed by the ...

Since October 1, 2018, I am working as research associate (PostDoc) at the University of Augsburg. Please visit my homepage there for up-to-date information. In this thesis we introduce new numerical ...

Over the past 40 years, Allen Taflove has reshaped the way physicists and electrical engineers solve problems in classical electrodynamics. Taflove, professor of electrical engineering and computer ...

Finite element methods (FEM) constitute a foundational numerical approach for solving partial differential equations by discretising complex domains into smaller, manageable subdomains known as ...

Course Description: This course provides a practical introduction to the Finite Element Method (FEM), with an emphasis on hands-on implementation using Python. It covers the basic theoretical concepts ...

Most standard software for modeling magnetic fields uses the standard finite-element method. For some problems, however, an alternate boundary-element formulation can be much more efficient. To ...

What Are FEM, FDM and FVM? FEM, FDM and FVM differ from one another in important ways. Understanding these distinctions is key to selecting the method most appropriate for your purposes. The ...