Kadin Thompson

In Plain English

Electrons are tiny charged particles which orbit the atomic nucleus and flow together in wires to gives us electricity. In some materials, called superconductors, electrons are able to attract each other and form special co-ordinated pairs called Cooper pairs. In conventional superconductors the Cooper pairs are made from electrons that spin in opposite directions. But this is not the only possiblity: the various ways of building different kinds of Cooper pairs provides us with a set of so-called unconventional superconductors. Some of these are highly sought after in industry, such as high-temperature superconductors which might revolutionalise the way we transport electrical current. One particular kind of unconventional superconductor I am interested in are those with topological properties. The word "topological" is used here because these superconductors have special Majorana states which are irremovable, just like the hole of a donut. Such irremovable states might be useful vehicles for storing quantum information robustly, which comes in handy when building fault-tolerant quantum computers.