In the quirky quantum world, particles can be affected by forces that they never directly encounter. A classic example is the ...

A new study has uncovered the universal dynamics far from equilibrium in randomly interacting spin models, thereby complementing the well-established universality in low-energy equilibrium physics.

In the intricate realm of wave turbulence, where predictability falters and chaos reigns, a groundbreaking study has emerged. The new research explores the heart of wave turbulence using an ultracold ...

In everyday life, all matter exists as either a gas, liquid, or solid. In quantum mechanics, however, it is possible for two distinct states to exist simultaneously. An ultracold quantum system, for ...

By manipulating ultrafast quantum particles under extreme conditions, researchers have begun to probe growth dynamics in unprecedented detail. Why do patterns emerge as surfaces grow, whether in ...

The goal of this project is to construct a statistical morphing continuum theory to model the complex and non-equilibrium physics of microstructured eddies in compressible turbulence. This multiscale ...

Quantum dynamics—the study of how particles behave and interact in a quantum system—has long fascinated physicists due to its puzzling and sometimes bizarre behaviors. Unlike classical systems, where ...

I am working in statistical physics, complex systems and condensed matter theory. I am particularly interested in glassy and off-equilibrium physics and slow and collective dynamics.

The Kardar-Parisi-Zhang equation has been experimentally verified for the first time on 2D surfaces - thanks to sophisticated material design and polaritons. The question of how surfaces grow is one ...