The Anderson transition is a phase transition that occurs in disordered systems, which entails a shift from a diffusive state (i.e., in which waves or particles are spread out) to a localized state, ...

Biological processes that govern our lives are many, intertwined, and often difficult to understand. They involve countless interactions happening at once—molecules recognizing each other, signals ...

Scientists have developed a new method to analyze the dynamical, out-of-equilibrium properties of complex disordered systems, such as gold with magnetic impurities or opinions spreading on social ...

Disordered and frustrated systems comprise a vibrant research area in condensed matter physics with applications in fields ranging from mathematics to biology. At their core, these systems share ...

Visual Studies: A Skeptical Introduction (Routledge, 2003): Art history seems to be a global enterprise: After all, art is produced in outlandish quantities and studied in hundreds of art-history ...

The journal Nature Materials reports the discovery of “hidden order” in systems that are disordered in space and time. The breakthrough was achieved by Prof. Erez Hasman from the Faculty of Mechanical ...

Physicists at UC Santa Barbara and the University of Maryland, and also at the University of Washington have found an answer to the longstanding physics question: How do interparticle interactions ...

Physicists at UC Santa Barbara have become the first to experimentally observe a quirky behavior of the quantum world: a “quantum boomerang” effect that occurs when particles in a disordered system ...

In physics, a "disordered system" refers to a physical system whose components – e.g. its atoms – are not organized in any discernible way. Like a drawer full of random socks, a disordered system ...

Physicists have found an answer to the longstanding physics question: How do interparticle interactions affect dynamical localization? Physicists at UC Santa Barbara and the University of Maryland, ...