Researchers have developed a powerful computational framework that shows how carefully optimized nanotube shapes can amplify ...

The mathematical physics underpinning electromagnetic fields and wave equations provides a rigorous framework for understanding the behaviour of electric and magnetic phenomena in both classical and ...

Researchers have discovered that optimizing nanotube shapes can amplify energy fields by 30 times, paving the way for ...

Master the fundamentals of undergraduate electromagnetics with this concise and accessible textbook, linking theoretical principles to real-world engineering applications. Lightning, nuclear fusion, ...

Materials react differently to electric and magnetic fields, and these reactions are known as electromagnetic responses. In ...

THz waves, located in the far-infrared region of the electromagnetic spectrum, can be used to perform non-invasive imaging through opaque materials for security and quality control applications.

The research team of Dr. Byeongjin Park and Dr. Sang Bok Lee from the Composites & Convergence Materials Research Division at the Korea Institute of Materials Science (KIMS), has developed the world's ...

A team of researchers now shown that a unique solution in the form of an ultra-thin, flexible, see-through film that can ...

Researchers in Burkina Faso have assessed the technical feasibility of PV systems near base transceiver stations and have found that solar modules with “optimal” boron doping levels may better resist ...

Incident power density's impact in multiple scenarios, such as Internet of Body devices. Rising skin and surface temps caused by IPD. Exposure to electromagnetic fields from user-equipment devices.

Helical pulses, shaped like flying electromagnetic conches, long predicted but never directly observed, have now been ...