CCRAFT, the thin-film lithium niobate (TFLN) photonic chip foundry recently spun out of Switzerland’s Centre Suisse ...

The candidate pool for engineered materials that can help enable tomorrow's cutting-edge optical technologies—such as lasers, ...

A research team led by SUTD has created nanoscale glass structures with near-perfect reflectance, overturning long-held ...

Massless Kane fermions revealed in zinc-blende semiconductors have recently gained interest in the broad study of relativistic materials. In particular, two-dimensional (2D) Kane fermions were ...

This article introduces an innovative sensor leveraging surface plasmon resonance constructed within the framework of photonic crystal fiber (PCF) for measuring refractive indices. This innovative ...

In recent years, a range of two-dimensional boron polymorphs, collectively referred to as borophene, have been experimentally realized on a diverse set of metallic substrates by bottom-up synthesis in ...

A novel concept to mitigate the unintended transmission and reception of signals at the third harmonic of dielectric rod antennas is proposed. To suppress the third harmonic radiation, an ...

In a blog, Brian Amick, SVP of technology and engineering at AMD, wrote that the elite team and top talent at Enosemi “has a proven track record of building and shipping photonic integrated circuits ...

New chiral photonic device combines light manipulation with memory. ScienceDaily. Retrieved June 11, 2025 from www.sciencedaily.com / releases / 2025 / 05 / 250528131552.htm. University of Utah.

A new chiral photonic device enables real-time, electrically controlled tuning of light's circular polarization using a heterostructure of aligned carbon nanotubes and phase-change material.