A new study published in Physics World has revealed that domain walls in twisted graphene can create one-dimensional superconductors. This discovery has significant implications for the field of condensed matter physics.
Twisted graphene, also known as twisted bilayer graphene, consists of two layers of graphene stacked on top of each other at a slight angle. When domain walls are introduced into this structure, they create unique electronic properties that can be exploited for various applications.
The researchers involved in the study were able to demonstrate how domain walls in twisted graphene can induce superconductivity in the material. This phenomenon occurs when electrons are able to flow through the material without any resistance, leading to highly efficient electrical transport.
By understanding the behavior of domain walls in twisted graphene, scientists can potentially harness this property to develop new materials with superior electronic properties. This research opens up new possibilities for the field of superconductivity and could lead to advancements in quantum computing and other technologies.
Overall, the discovery of one-dimensional superconductors in twisted graphene highlights the importance of studying novel material structures and their electronic properties. This research could pave the way for exciting developments in the field of condensed matter physics in the future.
