https://www.sciencedaily.com/releases/2021/09/210929154159.htm > "We combined correlation and topology in one system," said co-principal investigator Jong Mok Ok, who conceived the study with principal investigator Ho Nyung Lee of ORNL. Topology probes properties that are preserved even when a geometric object undergoes deformation, such as when it is stretched or squeezed. "The research could prove indispensable for future information and computing technologies," added Ok, a former ORNL postdoctoral fellow. > In conventional materials, electrons move predictably (for example, lethargically in insulators or energetically in metals). In quantum materials in which electrons strongly interact with each other, physical forces cause the electrons to behave in unexpected but correlated ways; one electron's movement forces nearby electrons to respond.