For quantum computers to function, they must be kept at extremely low temperatures. However, today's cooling systems also ...

Scientists have uncovered hidden magnetic order inside the pseudogap, bringing us closer to engineering high-temperature superconductors.

Physicists have discovered that hidden magnetic order plays a key role in the pseudogap, a puzzling state of matter that ...

Using a superconducting quantum computer, physicists created a large and complex version of an odd quantum material that has ...

In the quest for room-temperature superconductivity, international physicists have uncovered a link between magnetism and the ...

Physicists have uncovered a link between magnetism and a mysterious phase of matter called the pseudogap, which appears in ...

The mystery of quantum phenomena inside materials—such as superconductivity, where electric current flows without energy loss—lies in when electrons move together and when they break apart. KAIST ...

Brian Maple is a Distinguished Professor and holds the Bernd T. Matthias Endowed Chair in Physics at the University of ...

Supercomputing has shifted into the mainstream, with recent AI advancements and adoption making the use of massive amounts of ...

Quantum computing promises to disrupt entire industries because it leverages the rules of quantum physics to perform calculations in fundamentally new ways. Unlike traditional computers that process ...