There is increasing interest in convection in local thermal non-equilibrium (LTNE) porous media. This is where the solid skeleton and the fluid may have different temperatures. There is also ...

Arguably, almost all truly intriguing systems are ones that are far away from equilibrium -- such as stars, planetary atmospheres, and even digital circuits. But, until now, systems far from thermal ...

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 ...

Recognizing that light in these systems undergoes a process akin to reaching thermal equilibrium—similar to how gases reach equilibrium through molecular collisions—the USC researchers developed a ...

Japanese researchers have unveiled a breakthrough in energy harvesting that could redefine efficiency limits. By exploiting quantum states that resist thermalization, their new approach converts waste ...

Harnessing quantum states that avoid thermalization enables energy harvesters to surpass traditional thermodynamic limits ...

SANTA BARBARA, Calif. — A simple toy is helping scientists understand new details of a mysterious quantum process. The rhythmic click-clacking of the metal balls in Newton’s cradle has long ...

(Nanowerk News) Harnessing quantum states that avoid thermalization enables energy harvesters to surpass traditional thermodynamic limits such as Carnot efficiency, report researchers from Japan. The ...