Other important uses include imaging, high-resolution radar technology and communication ... is to re-inject (or seed) another terahertz laser with the sidebands, so that the laser will start ...

This involves shining a laser or other high-power light source onto a photoconductive material ... For example, researchers have used terahertz imaging to detect concealed weapons on individuals from ...

The MIT team used a terahertz laser to directly influence the atoms of an antiferromagnetic material ... This research paves the way for new techniques to manipulate quantum materials, with potential ...

Globally, research and development in terahertz (THz) communications is accelerating, driven by the demand for higher data rates and the need to overcome the limitations imposed by current ...

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 ...

“We plan to deploy these laser communication units across all satellites ... such as those in the terahertz range.

Using a terahertz laser, scientists successfully vibrated atoms at the same frequency as the material’s collective frequency, or phonons, nudging the material out of its antiferromagnetic state.

The next generation of wireless communication, represented by terahertz technology ... The team’s work has been published in the journal Laser & Photonic Reviews, highlighting its significance ...

MIT physicists have created a new and long-lasting magnetic state in a material, using only light. In a study appearing today in Nature, the researchers report using a terahertz laser — a light source ...

This Focus Issue describes the interaction mechanism between terahertz radiation and matter. Topics covered include terahertz sources, on- and off-resonant control using intense terahertz pulses ...