For more than a century, modern physics has rested on two towering frameworks that do not quite agree with each other.

A collaboration between Stuart Parkin's group at the Max Planck Institute of Microstructure Physics in Halle (Saale) and Claudia Felser's group at the Max Planck Institute for Chemical Physics of ...

Random geometry and quantum gravity represent interwoven themes at the frontier of modern mathematical physics. These fields examine the stochastic nature of geometric structures that underpin quantum ...

Scientists uncovered hidden geometry that distorts electron paths like gravity bends light, advancing quantum materials for faster data and lossless conduction. (Nanowerk News) How can data be ...

Quantum metric spaces extend the classical notion of metric spaces into the noncommutative realm by utilising operator algebras and associated seminorms to capture geometric structure in settings ...

Quantum theory and general relativity have long described the universe with incompatible languages, one speaking in probabilities and the other in smooth curves of spacetime. A new line of work argues ...

Physicists found electrons synchronizing in star-shaped Kagome crystals, showing geometry can tune quantum behavior and shape material function. (Nanowerk News) Physicists at the Max Planck Institute ...

In a remarkable leap for quantum physics, researchers in Japan have uncovered how weak magnetic fields can reverse tiny electrical currents in kagome metals—quantum materials with a woven atomic ...

How can data be processed at lightning speed, or electricity conducted without loss? To achieve this, scientists and industry alike are turning to quantum materials, governed by the laws of the ...