For decades, scientists have sought ways to compress the tools of optical science – lasers, lenses, mirrors – onto chips that fit on a fingertip. Such ...

Nanophotonics is transforming technology with trends in biosensing, on-chip integration, and machine learning, paving the way ...

Cloud-based retrofitting changes the picture. Cheap scalable compute and faster networks now make it possible to offload ...

Part one of this three-part series examines the rational for using control technology to reduce process variability ...

A review paper by scientists at Zhejiang University presented a comprehensive review of recent developments in the structural ...

In geopolitical terms, catastrophe theory explains the breaks in world order—the sudden realignments that redefine history. Chaos theory, by contrast, explains the turbulence that precedes and follows ...

Moog uses advanced modeling and simulation tools—such as Simulink, MATLAB and its proprietary MAST library—to design and ...

Stanford scientists found that strontium titanate improves its performance when frozen to near absolute zero, showing ...

Researchers at the University of California, Los Angeles (UCLA) have developed an optical computing framework that performs large-scale nonlinear ...

Researchers have developed a high-fidelity 13-degree-of-freedom nonlinear model and an intelligent algorithm for wind turbine ...

Laser light can physically distort Janus TMD materials, revealing how their asymmetrical structure amplifies light-driven ...

Abstract: Nonlinear affine systems with relative degree two widely exist in the control field, and the unified output tracking control approach of these systems is still an open problem. This paper ...