Superconductors are materials that can conduct electricity without electrical resistance -- making them the ideal base material for electronic components in MRI machines, magnetic levitation trains and even particle accelerators. However, conventional superconductors are easily disturbed by magnetism. An international group of researchers has now succeeded in building a hybrid device consisting of a stable proximitized-superconductor enhanced by magnetism and whose function can be specifically controlled.
They combined the superconductor with a special semiconductor material known as a topological insulator. "Topological insulators are materials that conduct electricity on their surface but not inside. This is due to their unique topological structure, i.e. the special arrangement of the electrons," explains Professor Charles Gould, a physicist at the Institute for Topological Insulators at the University of Würzburg (JMU). "The exciting thing is that we can equip topological insulators with magnetic atoms so that they can be controlled by a magnet."
The superconductors and topological insulators were coupled to form a so-called Josephson junction, a connection between two superconductors separated by a thin layer of non-superconducting material. "This allowed us to combine the properties of superconductivity and semiconductors," says Gould. "So we combine the advantages of a superconductor with the controllability of the topological insulator. Using an external magnetic field, we can now precisely control the superconducting properties. This is a true breakthrough in quantum physics!"
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