As quantum Hall effects interact with subtle material vibrations, energy conversion occurs naturally, pointing toward ultra-efficient, low-voltage operation ...

New evidence suggests a rare triplet superconductor may help quantum computers stay in sync by preserving electron spin ...

In many quantum materials—materials with unusual electrical and magnetic properties driven by quantum mechanical effects—electrons can organize themselves into Landau levels. Landau levels are ...

A new study has revealed how tiny imperfections and vibrations inside a promising quantum material could be used to control ...

Scientists at Oak Ridge National Laboratory have discovered that a specially engineered tantalum-tungsten-selenium crystal spontaneously forms atomic clusters that generate local magnetism where none ...

Now a team at Princeton University says it has found a way to see that hidden world more clearly than ever before, using defects inside diamonds and a trick from quantum physics. In a study published ...

A subtle twist between atomically thin magnetic layers can generate unexpectedly large and complex spin structures.

We’re probably all familiar with the Hall Effect, at least to the extent that it can be used to make solid-state sensors for magnetic fields. It’s a cool bit of applied physics, but there are other ...

Katie has a PhD in maths, specializing in the intersection of dynamical systems and number theory. She reports on topics from maths and history to society and animals. Katie has a PhD in maths, ...

The study of quantum mechanics in conjunction with geometric effects in magnetic fields represents a rapidly evolving domain that bridges fundamental physics and emerging technologies. The intricate ...