Faster, more efficient, and more versatile—these are the expectations for the technology that will produce our energy and handle information in the future. But how can these expectations be met? A ...
In a new study published in Nano Letters, the researchers show that precisely layering nano-thin materials creates excitons—essentially, artificial atoms—that can act as quantum information bits, or ...
Two-dimensional perovskites are often seen as leading candidates for future LEDs and solar cells ...
Physicists have developed a novel approach to maintain special quantum characteristics, even in 3D materials, with potential applications in optical systems and advanced computing. There is a big ...
Ultrafast measurements reveal how light energy moves across two dimensional and organic semiconductor interfaces, enabling rapid transfer that could improve future optoelectronic devices. (Nanowerk ...
Researchers have found a way to make “dark excitons”—normally invisible quantum states of light—shine dramatically brighter by trapping them inside a tiny gold-nanotube optical cavity. This ...
Quantum physicists are edging closer to a kind of controlled transmutation, not of lead into gold, but of one electronic reality into another. By steering exotic entities called excitons, researchers ...
SUNNYVALE, Calif.--(BUSINESS WIRE)--NTT Research, Inc., a division of NTT (TYO:9432), today announced that scientists from its Physics & Informatics (PHI) Lab have achieved quantum control of exciton ...
Researchers demonstrate a powerful new approach to Floquet engineering, which for decades has sought to imbue ‘trivial’ materials with exotic quantum properties To most, this sounds like science ...
The atomic lattice structure of the layered magnetic semiconductor chromium sulfide bromide (CrSBr) have magnetic moments, or spins, that align with each other and alternate on each layer. This ...