Ezio Todesco charts the future of high-field dipole magnets – a technology set to advance the boundaries of high-energy physics and the societal applications of superconductivity.

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 ...

Physicists in China have unveiled new clues to the origins of high-temperature superconductivity in an iron-based material just a single unit-cell thick. Led by Qi-Kun Xue and Lili Wang at Tsinghua ...

a. The results show that superconductivity (SC) and long-range CDW can coexist while increasing strain suppresses superconductivity and enhances CDW order. b. At a strain of 0.15%, short-range CDW ...

Superconducting materials conduct electricity with no resistance and can be used to make powerful magnets, among other things. UC Davis physicist Inna Vishik was recently awarded a $1.25 million grant ...

NbRe may be a long-sought triplet superconductor, offering zero-resistance spin transport and major advances in quantum computing.

And there are modern applications that currently use materials with superconducting properties, including MRI machines, maglev trains, electric motors and generators. Usually, superconductivity in ...

Chinese researchers have achieved a major breakthrough in superconductivity, developing a nickel-based superconductor that ...

The Bernd Theodor Matthias Prize, established in 1989 and awarded every three years, is widely recognized as the highest ...

Never say never - or for that matter, "insoluble." That's the philosophy of Professor of Physics Leon Cooper, whose theory of superconductivity - once thought to be an insoluble, or impossible to ...

An international team of researchers has shown that superconductivity can be modified by coupling a superconductor to a dark electromagnetic cavity. The research opens the door to the control of a ...