Basic research contributes to technological innovation by deepening our understanding of the interplay between antiferromagnetism, band topology, and strong electron interactions. Credit: Ray et al ...

In recent years, physicists and material scientists have identified various new materials marked by interesting properties and quantum effects. These materials could prove highly valuable both as ...

A research team from the University of Wollongong's (UOW) Institute for Superconducting and Electronic Materials (ISEM) has addressed a 40-year-old quantum puzzle, unlocking a new pathway to creating ...

Magnetic materials are the cornerstone of the modern information society, and their magnetism is mainly divided into two major categories: ferromagnetism and antiferromagnetism. In recent years, based ...

Chromium(III) Telluride (Cr 2 Te 3) is an interesting material for (ferro)magnetic applications, with Yao Wen and colleagues reporting in a 2020 Nano Letters paper that they confirmed it to show ...

Here’s what you’ll learn when you read this story: For 150 years, scientists and engineers have leveraged the Hall effect in a variety of applications, both consumer and scientific. Now a new study ...

In-plane magnetic fields are responsible for inducing anomalous Hall effect in certain films, report researchers. By studying how these fields change electronic structures, the team discovered a large ...

Basic research contributes to technological innovation by deepening our understanding of the interplay between antiferromagnetism, band topology, and strong electron interactions. An international ...