Scientists from China and Singapore have developed a new printing technique for multiscale optical metamaterials that could ...

Metamaterials are carefully engineered materials that possess desirable properties and can be used to manipulate ...

This Collection supports and amplifies research related to SDG 9: Industry, Innovation & Infrastructure. The emergence of multifunctional metamaterials has revolutionized various domains of science ...

A coating that can hide objects in plain sight, or an implant that behaves exactly like bone tissue—these extraordinary objects are already made from "metamaterials." Researchers from TU Delft have ...

Could invisibility cloaks become a reality? New research brings this science fiction concept a step closer, with a breakthrough software package that simulates how waves interact with complex ...

A joint research team has recently achieved a breakthrough in the field of optical metamaterials, creating new avenues for multi-scale optical metamaterial research and micro-nano photonics ...

Scientists have invented intelligent metamaterials that can learn, remember, change shapes, and move on their own without ...

Researchers have been the first to demonstrate that not just individual bits, but entire bit sequences can be stored in cylindrical domains: tiny, cylindrical areas measuring just around 100 ...

Schematic diagram of the coordinate transformation process in cylinder structure. (A), (D), (C), and (F) Cartesian coordinates. (B) and (E) Curvilinear coordinates. The red lines denote isotherms.

Although artificially created metamaterials probably won't reach large-scale commercialization for 10 years or so, some are already appearing in niche applications like electronics, communications, ...

This image is a simulation of a kind of acoustic wave called a Rayleigh-Bloch wave. The stripes of light and dark areas represent the “peaks" and “troughs" of the waves and are shaped by their ...