Scientists have found an elusive third form of magnetism that could help solve a longstanding puzzle about superconductors.

Researchers from Tokyo Metropolitan University have discovered a new superconducting material. They combined iron, nickel, ...

So-called "infinite-layer" nickelate materials, characterized by their unique crystal and electronic structures, exhibit significant potential as high-temperature superconductors. Studying these ...

A student project has discovered superconductivity in polycrystalline iron-nickel-zirconide. Researchers from Tokyo ...

With the increasing impact of climate change becoming more and more tangible, achieving carbon neutrality—net-zero greenhouse ...

Superconductors can carry electricity without losing energy, a superpower that makes them invaluable for a range of ...

The original version of this story appeared in Quanta Magazine. In 2024, superconductivity—the flow of electric current with zero resistance—was discovered in three distinct materials.

Researchers have discovered the first conclusive evidence of altermagnetism, a third form of magnetism. The study reveals ...

Researchers from Tokyo Metropolitan University have developed a new superconducting material by combining iron, nickel, and ...

This high-density quark behavior is called color superconductivity. The strength of pairing inside a color superconductor ... In quantum computers, information is often carried by single photons ...

At extremely high densities, quarks are expected to form pairs, a phenomenon called color superconductivity. The strength of pairing inside a color superconductor is related to the pressure of dense ...