Scientists from the (MPSD) and MIT have achieved a groundbreaking feat — creating a stable, long-lasting magnetic state in an antiferromagnetic material using only light. This discovery could lead to ...

Terahertz electromagnetic waves occupy a middle ground between electronics waves, like microwave and radio waves, and photonics waves, such as infrared and UV waves. For example, mobile phones use ...

Terahertz radiation lies between microwaves and infrared light on the electromagnetic spectrum. It holds great promise for ...

Their paper, published in Nature Nanotechnology, shows that when exposed to continuous-wave terahertz (THz) radiation, Dirac electrons in this material can be thermally decoupled from the lattice ...

Terahertz radiation, which lies between the microwave and infrared regions of the electromagnetic spectrum, is highly sensitive to water content in tissues and, unlike X-rays, it is non-ionizing and ...

At wavelengths slightly longer than red, we get infrared radiation, and beyond that we get terahertz radiation and then microwaves. Light with the longest wavelengths – millimetres, metres or ...

Terahertz technology seems set to become important in security screening and the pharmaceutical industry. The ultimate solution for airport security would be a system that not only tells security ...

1.De Miguel, J., Hernández-Cabrera, J. F., Hernández-Suárez, E., Joven-Álvarez, E., Otani, C., and Rubiño-Martín, J. A.: "Discovery prospects with the Dark ...

ROHM Semiconductor today announced they have started offering samples of the industry’s smallest [1] terahertz (THz) wave oscillation and detection devices utilizing semiconductor elements known as ...