Electromagnetic metamaterials with negative physical parameters such as negative dielectric constant and negative magnetic ...

超构材料智能：超构材料与人工智能的相互作用不是单方向的，而是相互促进，融合发展。利用超构材料的丰富设计自由度，实现以场波为载体的电磁神经网络、电磁逻辑计算和电磁数学算符。它凭借速度快、算力高、并行能力强、能耗低等优势受到广泛关注，打破传统电子计算机的 ...

In recent years, metamaterials with negative physical parameters such as negative dielectric constant and negative magnetic permeability have attracted great attention due to their great potential in ...

For the first time, scientists have demonstrated that negative refraction can be achieved using atomic arrays—without the ...

Cut open a bone and you'll see a subtly disordered structure. Tiny beams, called trabeculae, connect to one another in ...

Scientists have found a way to achieve negative refraction—where light bends the "wrong" way—using carefully arranged atomic ...

For the first time, scientists have demonstrated that negative refraction can be achieved using atomic arrays.

DUBLIN--(BUSINESS WIRE)--The "Global Metamaterials Market 2025-2035" report has been added to ResearchAndMarkets.com's offering. Metamaterials represent a revolutionary class of engineered ...

Kapta Space, a radar technology startup based in Seattle, raised $5 million in a seed round led by MetaVC Partners.

Owing to the wave nature of light there are many ways that such different waves can interact with each other, but also with materials. Everyone knows about reflecting light with a mirror, which is ...