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Aug. 19, 2021 —A study has developed a new method that enables quantum computers to measure the thermodynamic properties of systems by calculating the zeros of the partition ...
Sep. 12, 2022 —Researchers have created a geometric representation of the laws of thermodynamics. Their results were generally applicable regardless of the specifics of the interconnected reactions such as ...
Nov. 11, 2020 —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 ...
Mar. 16, 2022 —A challenge in materials design is that in both natural and humanmade materials, volume sometimes decreases, or increases, with increasing temperature. While there are mechanical explanations for ...
Jan. 24, 2023 —When two microscopic systems are entangled, their properties are linked to each other irrespective of the physical distance between the two. Manipulating this uniquely quantum phenomenon is what ...
July 31, 2020 —The design of novel materials with superior characteristics by entropy stabilization is a very dynamic emerging research area in materials science. However, despite recent advances in ...
Sep. 8, 2020 —In physics, it is essential to be able to show a theoretical assumption in actual, physical experiments. For more than a hundred years, physicists have been aware of the link between the concepts of ...
July 16, 2021 —When a liquid is cooled rapidly, it gains viscosity and eventually becomes a rigid solid glass. The point at which it does so is known as the glass transition. A collaborative research group has ...
July 5, 2023 —A solution for temporal asymmetry -- or entropy production -- in thermodynamics has been developed to further our understanding of the behavior of biological systems, machine learning, and AI tools. ...
Mar. 5, 2021 —Researchers have developed a new quantum version of a 150-year-old thermodynamical thought experiment that could pave the way for the development of quantum heat ...