Quantum computing represents a potential breakthrough technology that could far surpass the technical limitations of ...

Simulation of Rydberg arrays inside optical cavity shows photons and atoms don’t always rapidly settle at same temperature ...

Nanophotonics has become one of the most dynamic frontiers in modern science, enabling unprecedented control of light–matter interactions at the nanoscale.

Researchers in Germany have created a new photonic chip that precisely controls quantum light without disrupting fragile signals.

This study explores how optical beam splitters provide a conceptual and operational link between classical and quantum descriptions of light. In the classical picture, they are modeled through ...

Scientists are learning to engineer light in rich, multidimensional ways that dramatically increase how much information a single photon can carry. This leap could make quantum communication more ...

Nvidia's GPU dominance provides an opportunity to bridge the gap between current computers and a quantum future. International Business Machines is among the early leaders in quantum hardware and ...

In future high-tech industries, such as high-speed optical computing for massive AI, quantum cryptographic communication, and ultra-high-resolution augmented reality (AR) displays, nanolasers—which ...

Before quantum computing became a global race, Michelle Simmons was already working at the atomic limits of silicon, demonstrating that individual atoms could be engineered into functional electronic ...