A team at Chalmers University of Technology in Sweden now reports a new way to improve that outlook by designing a material that supports superconductivity at higher temperatures while also standing ...

Superconducting materials could play a crucial role in the energy-efficient applications of the future. However, several ...

Superconductors have the potential to revolutionize energy, transportation, and computing, allowing for lossless power transmission, floating maglev trains, and ultra-fast electronics. However, ...

Mr. Cote is an engineering physicist who has worked with superconductors in condensed matter physics labs and particle accelerators and has designed superconducting magnet systems for nuclear fusion.

The last week of July heralded not one but two scientific breakthroughs that have left the academic community abuzz and may bring us one step closer to the holy grail of fusion energy. Nuclear fusion ...

For the first time in the world, researchers (From Korea University, Sukbae Lee, Ji-Hoon Kim, Hyun-Tak Kim) have succeeded in synthesizing a room-temperature superconductor (Tc≥400 K, 127∘C) working ...

Topological superconductors are materials that, beyond simply exhibiting superconductivity, possess a topological order. This order refers to the global properties of the material's wavefunctions that ...

Researchers designed a new superconducting material that works at higher temperatures and withstands strong magnetic fields.