An international team, led by Tongji University and Beijing Institute of Technology, together with University of Oviedo, demonstrates the possibility of converting linear incident polarization to any ...

The material developed in Korea can absorb up to 99% of electromagnetic waves. A thin film with a thickness of just 0.02 inches is sufficient. Until now, screens have only absorbed about 10% of the ...

The Korea Institute of Materials Science (KIMS) states it to be the “world's first ultra-thin film composite material capable of absorbing over 99% of electromagnetic waves.” ...

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

world's first ultra-thin film composite material capable of absorbing over 99% of electromagnetic waves from various ...

This material not only outperforms traditional shielding by minimizing secondary interference but also offers flexibility and ...

The research team of Dr. Byeongjin Park and Dr. Sang Bok Lee from the Composites & Convergence Materials Research Division at ...

In the fields of physics, mathematics, and engineering, partial differential equations (PDEs) are essential for modeling ...

A recent study from Newcastle University, published in Advanced Photonics Nexus, introduces a novel approach using electromagnetic (EM) waves to solve PDEs, specifically the Helmholtz wave equation.

From ETH Zurich: “Schematics of the experimental set-up (left) and wave propagation (right): Waveguide ... that allow us to manipulate electromagnetic waves. The researchers believe this concept ...