“The principle involves utilizing ultra-wideband, radially polarized, conical coaxial horn antennas to create a rotating electromagnetic wave structure,” the scientists said in a press statement.

"The principle involves utilizing ultra-wideband, radially polarized, conical coaxial horn antennas to create a rotating electromagnetic wave structure," the team explained in a statement.

The conical coaxial horn antenna generates an electromagnetic field in free space that rotates around the propagation direction of the wave structure. The researchers experimentally mapped the ...

Terahertz electromagnetic waves occupy a middle ground between electronics waves ... where it can be used to inspect the internal structure of materials without damaging them. An artist’s ...

A development from scientists at Shanghai Jiao Tong University in China aims to redefine underwater surveillance by using ...

Until now, it was believed to be unobservable with electromagnetic fields. "The Zel'dovich effect works on the principle that waves with angular momentum, that would usually be absorbed by an ...

Researchers at ETH Zurich have managed to make sound waves travel only in one direction. In the future, this method could also be used in technical applications with electromagnetic waves.

Electromagnetic radiation is the general term for the more familiar light and radio waves, but also includes gamma rays, x rays, ultraviolet rays, and infrared. All of these forms of electromagnetic ...

Bandwidth spans 1.3GHz to at least 10GHz. “The principle involves utilising ultra-wideband, radially polarised, conical coaxial horn antennas to create a rotating electromagnetic wave structure,” ...

Scientists have achieved the impossible-sounding feat of bringing light to a standstill, in a breakthrough that could pave ...

The study of seismic waves provides evidence for the internal structure of the Earth, which cannot be observed directly. P waves are detected on the opposite side of the Earth. Refractions between ...