Computational electromagnetics applies advanced numerical methods to solve Maxwell’s equations in complex geometries, enabling accurate simulations of electromagnetic phenomena across diverse scales.

Prof. Allen Taflove is featured in the most-recent issue of Nature Photonics (January 2015, Volume 9 No 1 pp1-72) for his pioneering work in computational electromagnetics, specifically the Finite ...

Researchers have developed a powerful computational framework that shows how carefully optimized nanotube shapes can amplify ...

Daniel Weile, associate professor of electrical and computer engineering at the University of Delaware, has been named a Fellow of IEEE for 2018. No more than one-tenth of one percent of the total ...

Numerical programming and computer simulations are ubiquitous through all subjects in physics. Thus, computational physics has grown to be an appealing field for those who wish to acquire advanced and ...

Already registered? Click here to login now. Linear electromagnetic devices — such as linear motors, generators, actuators, and magnetic gears — play a vital role in precision motion control, energy ...

Electromagnetic integral equations offer a powerful framework for modelling wave propagation and scattering phenomena by recasting Maxwell’s equations into formulations involving integrals over ...