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.

Systems out of thermodynamic equilibrium are very common in nature. In recent years they have attracted constantly growing attention because of their relevance for fundamental physics as well as for ...

Recent advances have significantly deepened our understanding of how systems evolve when driven far from equilibrium. Non-equilibrium thermodynamics examines energy flows, dissipation and entropy ...

Approaching quantum advantage: researchers have simulated a phase transition on a 20-qubit quantum processor. (Courtesy: iStock/agsandrew) A 20-qubit quantum processor has been used to simulate the ...

New uncertainty: A relationship between time and dissipation rate has been established in the laboratory. (Courtesy: iStock Greyfebruary) A “speed limit” on changes in non-equilibrium systems that was ...

A deep understanding of transport properties and non-equilibrium processes is central to advancing modern science and technology. At its core, transport phenomena encompass the macroscopic ...

Imaginary numbers are a solution to a very real problem, according to a new study published in Scientific Reports. Two physicists at Argonne National Laboratory offered a way to mathematically ...