A recent study found that the Hubbard model failed to accurately predict the behavior of a simplified one-dimensional cuprate system. According to scientists at SLAC, this suggests the model is ...

High-pressure electron tunneling spectroscopy reveals a superconducting gap in H₃S and D₃S. Feng Du Telephone: +4961313054811 [email protected] Vasily Minkov Telephone: +4961313057061 [email protected] ...

Using artificial intelligence shortens the time to identify complex quantum phases in materials from months to minutes, finds ...

While atoms are known to wiggle very fast, dopants added to a cuprate superconductor can also cause atoms to meander very slowly. An SLAC study shows this process, called atomic relaxation ...

The discovery of iron-based pnictide superconductors may have reinvigorated the field of high-temperature superconductivity, but the cuprate superconductors are still in the game. Although the ...

A major breakthrough came in 1986 with the discovery of cuprate superconductors. These materials can superconduct at temperatures as high as 130 Kelvin (-211°F), which, while still cold, is warm ...

They studied the CDF using X-ray scattering in cuprate superconductors with a wide doping range, using the measured CDF as an indication of the QCP, indicating that the former may be a result of ...

such as cuprate superconductors. "Furthermore, we want to know whether and how the dynamics of the strange metal influence phenomena such as unconventional superconductivity." ...

giving rise to behaviour such as scaling and universality. Figure 2: Doping–temperature phase diagram of the hole-doped cuprate superconductors.

A major breakthrough came in 1986 with the discovery of cuprate superconductors. These materials can superconduct at temperatures as high as 130 Kelvin (-211°F), which, while still cold ...