Protein crystallisation, a cornerstone technique in structural biology, is increasingly being refined through the controlled application of external electric and magnetic fields. By precisely ...

The rapid increase in electric vehicle adoption in recent years has highlighted a crucial issue: the energy conversion ...

Plasmonic resonances have opened new opportunities to manipulate nanoscale light–matter interactions, allowing to overcome the inherent limitations of natural materials. This field was pioneered by ...

If you took introductory physics, you learned about the “fundamental forces.” It goes something like this: All interactions are the result of one or more of five basic forces: strong nuclear, weak ...

Multiferroics are a class of materials that exhibit more than one type of ferroic order simultaneously in a single phase. Ferroic orders include ferromagnetism (spontaneous magnetic ordering), ...

The sun continuously blasts charged, magnetic field-carrying particles, or plasma, in all directions. This solar wind ...

Understand electric and magnetic forces through a clear velocity selector example! In this video, we break down how charged particles behave under electric and magnetic fields, explain the underlying ...

The global magnetic sensors market is poised for significant growth, projected to exceed $6 billion by 2036. Key technologies driving this expansion include Hall effect, anisotropic magnetoresistance, ...