In a world where speed defines progress, China is pushing the boundaries of transportation with a train that could make ...

A superconducting magnetic levitation train, also known as SCMaglev or Maglev for short, can travel at speeds up to 300 mph or faster. Project developers for a proposed Maglev train in the ...

The test was conducted by a superconducting maglev vehicle in a 2-km-long pipeline with a low-vacuum environment, according ...

A rare-earth barium copper oxide (REBCO) is now being used by an Oxfordshire-based company for its superconducting properties ...

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

Superconducting materials allow current to flow through them ... energy losses in the power grid and paving the way for other novel technologies like maglev trains, more efficient MRI machines, and ...

Superconductors already play an active role in cutting-edge technologies, from superconducting magnets in medical devices and maglev systems to superconducting cables for power transmission.

Superconductors already play an active role in cutting-edge technologies, from superconducting magnets in medical devices and maglev systems to superconducting cables for power transmission.

Superconductivity technologies are used in NMR and MRIs, as well as in superconducting magnetic levitation railways. However, low-temperature superconductivity materials, which are commonly used in ...

In Japan 's Yamanashi prefecture, JR-Maglev MLX01 test trains have gone as fast as 361 mph by using superconducting magnets and electro-dynamic suspensions, or EDS.

"This is superconducting magnetic levitation," says magnet scientist Greg Brittles. "The closest you'll get to magic in the real world." And magical it is. The ceramic-like substance, called rare ...