One-hundred fifty years ago, mathematical physicist James Clerk Maxwell brought together electricity, magnetism, and light to formulate the classical theory of electromagnetic radiation. With these ...

The 2014 IEEE International Symposium on Electromagnetic Compatibility will be held Aug. 3-8 in Raleigh, NC. In addition to the extensive workshops, tutorials, experiments and demonstrations, ...

If Maxwell's equations were a piece of hardware, most of us would be eager to see what's inside the box. But you won't find the literary equivalent of a physical teardown because the subject is ...

Maxwell's Equations tell us a lot about electromagnetic interactions and physics. In the mid-1800s, Scottish physicist James Maxwell thought something interesting was going on with electric fields. So ...

Previously it has been shown that all finite energy, causal solutions of the time-dependent three-dimensional acoustic equation and Maxwell's equations have forms for large radius that, except for a ...

We review non-conformal domain decomposition methods (DDMs) and their applications in solving electrically large and multi-scale electromagnetic (EM) radiation and scattering problems. In particular, ...

James Clerk Maxwell (1831-1879) was the Einstein and the Newton of 19th century science. Maxwell's name is well known by every modern physicist and physics student. Maxwell's equations provide the ...

Earlier this week I caught the 6.30 a.m. train from Bristol to London to attend the second day of “Unifying physics and technology in light of Maxwell’s equations” at the Royal Society. It was a ...

What is light? How is it generated? How does it interact? How does it propagate through space? There is so much more to this seemingly benign yet subtle and complex phenomenon. The nature of light is ...