Operating at room temperature, this nanoscale device leverages silicon photonics to achieve high-performance spin control, essential for quantum communication.

Researchers at Monash University and the University of Melbourne have developed a quantum-inspired approach to optical ...

A silicon-lithium niobate metasurface controls light through air at gigahertz speeds, advancing compact systems for optical communication and signal routing. (Nanowerk Spotlight) Optical systems that ...

Optical device maker EZconn is seeing strong revenue and gross profit growth in the first quarter of 2024, thanks to the robust demand from broadband infrastructure construction in the US and ...

Caltech scientists have developed a way to guide light on silicon wafers with low signal loss approaching that of optical ...

With the rapid advancement of the information age, the demand for data transmission and processing has surged dramatically. As an efficient carrier for optical communication and data transmission, ...

Light can be sculpted into countless shapes. Yet building optical devices that can simultaneously manipulate many different optical patterns at once is extremely complicated, and remains a major ...

Lithium niobate has emerged as a cornerstone material in advanced photonic technologies, owing to its exceptional electro‐optic coefficients, wide optical transparency and strong nonlinear properties.

The Kepler Network aims to streamline on-orbit communications with a network infrastructure designed to act as Internet exchange points (IXP) for space-to-space data relay. Credit: Kepler ...