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

The quest for high-temperature superconductivity continues to captivate scientists. Recent progress sheds new light on a phenomenon that has been poorly understood until now. Superconductivity is ...

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

However, the origin of this superconductivity in high-temperature superconductors, such as Bi2212, remains one of physics' most intriguing mysteries. A key piece of the puzzle lies in the two ...

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

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.

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

Researchers used cutting-edge X-ray techniques to gain new insights into 'infinite-layer' nickelate materials.

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

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

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 ...