https://news.illinois.edu/view/6367/625022
Researchers have produced a "human scale" demonstration of a new phase of matter called quadrupole topological insulators that was recently predicted using theoretical physics. These are the first experimental findings to validate this theory.
The researchers report their findings in the journal Nature.
The team's work with QTIs was born out of the decade-old understanding of the properties of a class of materials called topological insulators. "TIs are electrical insulators on the inside and conductors along their boundaries, and may hold great potential for helping build low-power, robust computers and devices, all defined at the atomic scale," said mechanical science and engineering professor and senior investigator Gaurav Bahl.
The uncommon properties of TIs make them a special form of electronic matter. "Collections of electrons can form their own phases within materials. These can be familiar solid, liquid and gas phases like water, but they can also sometimes form more unusual phases like a TI," said co-author and physics professor Taylor Hughes.
Christopher W. Peterson, Wladimir A. Benalcazar, Taylor L. Hughes & Gaurav Bahl. A quantized microwave quadrupole insulator with topologically protected corner states. Nature, 2018 DOI: 10.1038/nature25777
(Score: 0) by Anonymous Coward on Tuesday March 27 2018, @06:35PM
So we have this. Then don't forget superionic water ice [sciencemag.org]. And "Giant Atoms [newatlas.com]". And excitonium [illinois.edu]. And supersoilids [mit.edu]. And time crystals [berkeley.edu]. And tetraquarks [physicsworld.com].
I'm not sure that phrase means what you think it means . . .