In a rare non-magnetic kagome material, a topological metal cools into a superconductor through a…
Browsing: Superconductivity
Superconductivity is a quantum mechanical phenomenon where certain materials exhibit zero electrical resistance and expel magnetic fields when cooled below a critical temperature. Discovered in 1911, it has fascinated scientists for over a century, leading to breakthroughs in technologies like MRI machines, particle accelerators, and powerful electromagnets. Research today pushes the boundaries of superconductivity, from understanding high-temperature superconductors to exploring potential applications in energy transmission, quantum computing, and advanced transportation systems like maglev trains.
Brookhaven Lab and Princeton scientists team up to identify sources of loss of quantum information…
New Wave of Electron Research A surprise result for solid state physicists hints at an…
New cerium superhydrides become stepping stones to “Goldilocks” superconductors. Researchers from Skoltech and their colleagues…
New superconducting magnet breaks magnetic field strength records, paving the way for practical, commercial, carbon-free…
A Department of Energy-funded project between Argonne and the University of Illinois Urbana-Champaign explores coupling…
Ultrathin Semiconductor Meets Superconductor For the first time, University of Basel researchers have equipped an…
A researcher at the University of Tsukuba introduces a new theoretical model of high-temperature superconductivity,…
Why Deep Freezing Iron-Based Materials Makes Them Both Magnetic and Superconducting Physicists at the University…
Work on three graphene-based devices may yield new insights into superconductivity. MIT researchers and colleagues…
Electric jolts, once thought too chaotic, may actually trigger precise quantum entanglement between atoms. How…
A research team from TU Wien together with US research institutes came across a surprising…
Known as “pair-density waves,” it may be key to understanding how superconductivity can exist at…
Chalmers researchers built an ultra-sensitive thermometer for quantum computers, enabling precise, real-time temperature checks to…
It’s an example of how surprising properties can spontaneously emerge in complex materials – a…
A novel laser technique significantly extends superconductivity duration, unlocking new possibilities for electronics and quantum…
Researchers at the Weizmann Institute of Science and the Massachusetts Institute of Technology discover a…
Rotation of electron spins in superconductors of atomic-scale thickness may be used to make qubits…