Phase equilibria in ternary and quaternary systems represent a cornerstone in the understanding of multi-component mixtures, where rigorous mapping of phase boundaries is essential for both ...

In this interview, AZoM talks to Dr. William G. Fahrenholtz about his research, and how he uses Phase Equilibrium Diagrams within it. Can you give a brief description of your research? My expertise is ...

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 ...

Today, researchers are defying a classical theory from American physicist Josiah Willard Gibbs, with proof of a five-phase equilibrium, something that many scholars considered impossible. Frozen water ...

Unlike conventional phases of matter, the so-called non-equilibrium quantum phases are defined by their dynamical and time-evolving properties — a behavior that cannot be captured by traditional ...

An international team of scientists has observed a never-before-seen exotic phase of matter on a quantum processor using Google’s 58-qubit AI chip Willow, which previously suggested we may live in a ...

Normal crystals, likes diamond, are an atomic lattice that repeats in space, but physicists recently suggested making materials that repeat in time. Last year, reseachers sketched out the phases ...

Crystals all the way down: An artistic rendering of a time crystal. (Courtesy: Google Quantum AI) Crystalline solids such as diamond have a hallmark property: their structure is periodic in space. For ...

Researchers used a 58-qubit quantum processor to realize and probe a Floquet topological phase, revealing exotic non-equilibrium matter beyond classical reach. (Nanowerk News) Unlike conventional ...