Quantum materials: Entanglement of many atoms discovered
https://www.sciencedaily.com/releases/2022/09/220902103303.htm
In physics, Schroedinger's cat is an allegory for two of the most awe-inspiring effects of quantum mechanics: entanglement and superposition. Researchers from Dresden and Munich have now observed these behaviors on a much larger scale than that of the smallest of particles. Until now, materials that display properties like, e.g., magnetism have been known to have so-called domains -- islands in which the materials properties are homogeneously either of one or a different kind (imagine them being either black or white, for example). Looking at lithium holmium fluoride (LiHoF4), the physicists have now discovered a completely new phase transition, at which the domains surprisingly exhibit quantum mechanical features, resulting in their properties becoming entangled (being black and white at the same time). "Our quantum cat now has a new fur because we've discovered a new quantum phase transition in LiHoF4 which has not previously been known to exist," comments Matthias Vojta, Chair of Theoretical Solid State Physics at TUD.
Phase transitions and entanglement