Scientists built a nano switch that controls excitons, chargeless quantum quasiparticles, at room temperature.

A new nanostructure acts like a wire and switch that can, for the first time, control and direct the flow of quantum ...

QNNs achieved 95 percent accuracy, while QSVMs reached 94 percent, both surpassing classical machine learning methods, which ...

Dirac plasmon polaritons, or DPPs, are different from ordinary light waves. They can squeeze light into spaces hundreds of times smaller than its natural wavelength, a ...

Researchers have successfully used a quantum algorithm to solve a complex century-old mathematical problem long considered ...

The study explores how quantum algorithms, particularly techniques in quantum machine learning, can enhance the performance of robots in tasks such as operation, navigation, and grasping. The core ...

A new nanostructure acts like a wire and switch that can, for the first time, control and direct the flow of quantum quasiparticles called excitons at room temperature.

This is a photonics-based quantum chip,” said Director Kim Yong-su and Dr. Han Sang-wook, president of the Korean Quantum ...

A new "optoexcitonic switch" already achieves state-of-the-art performance over current electronics and could serve as the ...

TCEP-based synchronization as a scalable and precise solution for achieving subnanosecond timing accuracy in distributed quantum networks.

Artificial intelligence is now part of our daily lives, with the subsequent pressing need for larger, more complex models.