In a groundbreaking leap for photonics, scientists have created the world’s first programmable nonlinear photonic waveguide, a device that can switch between multiple optical functions on a single ...

NTT’s research division has developed what it claims to be the world’s first programmable nonlinear photonic waveguide capable of switching between multiple nonlinear-optical functions on a single ...

Researchers in the ScopeX Lab and the Yao Group are harnessing the power of the photon for accelerated AI modeling and novel infrared detection, respectively. The ScopeX Lab works at the intersection ...

“We developed a technique to use lasers to cool and tightly trap atoms on an integrated nanophotonic circuit, where light propagates in a small photonic ‘wire’ or, more precisely, a waveguide that is ...

A new publication from Opto-Electronic Sciences; DOI 10.29026/oes.2025.240032 , discusses integrated photonic polarizers with 2D reduced graphene oxide. In modern optical systems, controlling light ...

Ultrathin structures that can bend, focus, or filter light, metasurfaces are reshaping how scientists think about optics. These engineered materials offer precise control over lights behavior, but ...

Collaborative research demonstrates unprecedented degree of control over propagation of light waves to perform machine-learning computations Figure 1: (A) The fundamental unit of an artificial neural ...

Researchers have developed a means to realize cold-atom integrated nanophotonic circuits. Researchers at Purdue University have trapped alkali atoms (cesium) on an integrated photonic circuit, which ...