Harnessing the immense power of nuclear fusion has long been a scientific challenge. While traditional fusion reactors use ...

Nuclear fusion has the potential to be far more efficient than nuclear fission and crucially safer as well. Unlike fission, ...

Superconducting devices are electronic devices that harness the zero-resistance properties of superconductors ... detectors of magnetic fields and low-noise amplifiers. Superconducting circuits ...

Kiwi startup OpenStar's bold move to use levitating dipole reactor for fusion achieved a key milestone with its first plasma.

A new study on FeSn thin films reveals localized electrons drive magnetism in kagome magnets, challenging previous theories and potentially advancing quantum computing and superconductors. Researchers ...

The study also revealed that some electron orbitals showed stronger interactions than others, a phenomenon known as selective band renormalization previously observed in iron-based superconductors, ...

The findings of a team at Rice University could revolutionize fields like quantum computing and high-temperature superconductors ... how scientists view kagome magnets, which are named after ...

The findings, published in Nature Communications Oct. 30, reveal that FeSn's magnetic properties arise from localized electrons, not the mobile electrons scientists previously thought.

Led by Zheng Ren, right, and Ming Yi, left, a new study on iron-tin thin films reshapes scientific understanding of kagome magnets ... and high-temperature superconductors. Led by Zheng Ren ...