New findings enable experimental studies to control and further develop the multiscale phenomena of complex…
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.
Physicists at Rutgers University have offered theoretical perspectives on an experiment involving a “strange metal,”…
TU Wien has performed calculations that suggest the use of the precious metal palladium as…
A Hidden Pattern of Electrons Could Provide Clues to Exotic Quantum Behavior Hidden stripes in…
Formed by an electronic struggle between the atomic layers of the material, this ‘stunning’ herringbone…
Silicon carbide VSi defects allow for highly accurate in-situ magnetic detection at high pressure, facilitating…
A study has revealed that quantum geometry drives superconductivity in twisted bilayer graphene, where electrons…
Researchers have not only raised the temperature, but also lowered the pressure required to achieve…
New Topological Superconductivity in Multilayered Graphene Sheets Graphene is a strange material. Understanding its properties is both a fundamental question of…
Researchers showed that quasiparticles and flat bands, typically seen in quantum physics, can emerge in…
Scientists identify quantum geometry as crucial to process. Researchers have produced new evidence of how…
Intercalation of indium into nanostructures promises applications to nanocircuitry. Researchers from Tokyo Metropolitan University have…
Applying a quick electric pulse completely flips the material’s electronic properties, opening a route to…
Researchers visualized light-induced phase transitions in VO2, finding internal pressure—not exotic phases—drives the changes. Using…
Researchers in Japan have integrated niobium nitride with aluminum nitride substrates, enabling superconducting qubits to…
For the first time, physicists have experimentally demonstrated that there is a negative correlation between…
It may be possible to develop superconductors that operate at room temperature with further knowledge…
Breakthrough in Room-Temperature Superconductivity Less than two years ago the science world was shocked by…