For the first time, scientists have directly imaged the quantum process underlying superconductivity, a phenomenon in which ...

Last year, tungsten diselenide (WSe2) had its magic moment. Two independent research groups discovered "magic angles" at ...

Superconductivity is a state of matter characterized by an electrical resistance of zero, typically at very low temperatures.

A new scenario for superconductivity is revealed, whereby applying pressure to the Kondo ferromagnet Ce5CoGe2 first induces a ...

A strange new kind of superconductivity has been uncovered in uranium ditelluride (UTe2), where electricity flows with zero ...

Researchers have uncovered new evidence that superconductivity can be steered by a material’s surroundings, opening a potential path toward electronics that waste far less energy. Instead of changing ...

A small environmental tweak can disrupt conventional behaviour, hinting that superconductivity may depend less on materials ...

Removing excess iron reveals FeTe as a superconductor, and its properties can be engineered using layered structures and ...

For decades, a family of crystals has stumped physicists with its baffling ability to superconduct—that is, carry an electric current without any resistance—at far warmer temperatures than other ...

A new method developed at LMU overcomes fundamental resolution limits and may provide insights into high-temperature ...

Superconductivity, or the idea that certain materials are capable of conducting direct current (DC) electricity without resistance or energy loss, has been an elusive phenomenon for well over a ...

Superconductivity is an effect in which a material’s electrical resistance vanishes and any magnetic field is expelled below a transition temperature. Despite the remarkable phenomenology, this ...