Researchers have discovered a method to induce chirality in non-chiral materials using terahertz light. This groundbreaking ...

Researchers at MIT have successfully induced a durable magnetic state in an antiferromagnetic material using terahertz light.

A new technique involving terahertz light has enabled the creation of chiral states in non-chiral materials, offering ...

The phase and the group velocity of light propagating in conventional optical media cannot exceed the speed of light in ...

Researchers at Osaka University developed advanced terahertz photodetectors containing ‘living’ microelectrodes. A vanadium ...

Chirality is the property of an object that makes it different from its mirror image, like our left and right hands. In ...

Physicists in the US, Europe and Korea have produced a long-lasting light-driven magnetic state in an antiferromagnetic material for the first time. While their project started out as a fundamental ...

Chirality refers to objects that cannot be superimposed onto their mirror images through any combination of rotations or ...

Researchers at Osaka University in Suita, Japan, have devised a novel way to improve the performance of electronic devices. The study, published in ACS Applied Electronic ...

Terahertz (THz) waves, situated between the microwave and infrared regions of the electromagnetic spectrum, have drawn ...

The research team, led by Andrea Cavalleri, used terahertz light to lift this balance in the non-chiral material boron phosphate (BPO 4), in this way inducing finite chirality on an ultrafast time ...

Terahertz light has the ability to control solids at the atomic level, forming chiral structures of left- and right-handedness. Chirality refers to objects that cannot be superimposed to their ...