G wireless communication services have rapidly expanded worldwide, leveraging millimeter-wave (mmW) frequencies in the 24 GHz ...

Researchers from Madrid explain a phenomenon that allows the direction of light emission to be controlled at the atomic scale ...

A team of researchers from the Korea Institute of Materials Science (KIMS) has created a groundbreaking ultra-thin film that ...

The material developed in Korea can absorb up to 99% of electromagnetic waves. A thin film with a thickness of 0.5 millimetres is sufficient. Until now, screens absorbed about 10% of the radiation. A ...

The electromagnetic wave absorption and shielding material. Korea Institute of Materials Science (KIMS) Scientists have developed a new material: an ultra-thin film that can absorb over 99% of ...

Materials scientists have invented a composite material that protects electronics by absorbing over 99% of electromagnetic ...

John J Hopfield, who recently won the 2024 Nobel Prize in Physics for his pioneering contributions to neural networks and ...

This electromagnetic wave absorption and shielding material is less than 0.5mm thick and is distinguished by its low ...

The results suggest that large gaps between the plasma columns weaken the absorption and reflection of electromagnetic (EM) waves by the plasma column array. Increasing the plasma column radius can ...