Researchers at the National High Magnetic Field Laboratory in Tallahassee, Florida, have pushed a palm-sized superconducting ...

When we think of powerful magnets used in particle accelerators or for NMR (nuclear magnetic resonance), we often envision ...

The Korea Institute of Fusion Energy (KFE) announced that they have experimentally verified that KSTAR's superconducting magnets maintain maximum performance even after 16 years of continuous ...

Researchers at ETH Zürich have built the most powerful miniature superconducting magnets ever demonstrated, ...

Nuclear energy startup Pranos has raised $6.8 Mn in its fresh funding round co-led by pi Ventures and Ankur Capital ...

Researchers have proposed that a newly identified class of magnetic materials could extend the zero-resistance currents of ...

The D’Onghia magnetic shielding crew hat, or CREW HaT, is a system that uses electromagnetic coils to deflect cosmic radiation from astronauts. The system consists of: A ring of electrical coils ...

Superconducting magnets discovered by MIT scientists in 2021 are finally ready for fusion reactors, some scientists say. The new type of magnet was developed by researchers at the Plasma Science and ...

A new 20 Tesla Superconducting magnet reduces the cost per watt of a fusion reactor by a factor of almost 40. MIT worked with Commonwealth Fusion Systems, a startup with over $2 billion in funding.

Under the right conditions, superconducting magnets allow electricity to flow essentially undisturbed, producing intense magnetic fields for a variety of uses, including nuclear fusion experiments.

High temperature superconducting (HTS) flux pumps and magnet systems have emerged as a promising technology for achieving persistent current operation without reliance on bulky current leads. By ...