LK99 is the proposed room temperature superconductor and IF it is confirmed as a superconductor then it will likely be a new class of superconductor. It is different than the previously known type 1 ...

For more than a century, condensed matter physics has grappled with one of its greatest unsolved challenges: how to build superconductors that operate at room temperature and transmit electricity with ...

A research team from Hefei Institutes of Physical Science (HFIPS), Chinese Academy of Sciences (CAS), discovered a new superconducting material called (InSe2)xNbSe2, which possesses a unique lattice ...

An illustration depicts pairs of superconducting electrons in rhombohedral graphene (the middle lattice structure) that spin in clockwise or counterclockwise direction (corresponding to blue and red ...

A Yale-led team has found the strongest evidence yet of a novel type of superconducting material, a fundamental science breakthrough that may open the door to coaxing superconductivity — the flow of ...

Superconductivity is the ability to transmit energy without any resistance when an object is cooled to a certain temperature.

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 ...

Researchers have proposed that a newly identified class of magnetic materials could extend the zero-resistance currents of superconductors to electron spins. Publishing their calculations in Physical ...

Superconductivity is a fascinating phenomenon in which certain materials exhibit zero electrical resistance and expel magnetic fields below a characteristic temperature, known as the critical ...

We propose a beyond-BCS mechanism for superconductivity, inspired by the recently observed chiral superconductivity in rhombohedral graphene system. We derive the topological order and the conductance ...

With his bold claims of revolutionary room-temperature superconductors, physicist Ranga Dias of the University of Rochester in New York propelled the field of high-pressure physics into the spotlight.