ITER has devised the technology that could unlock fusion energy, and they've done so with the aid of a 60-foot magnet. Here's ...

Europe has also delivered 10 of ITER's Toroidal Field magnets and has produced a substantial portion of the Niobium-Tin (Nb 3 Sn) superconductors used in these TF magnets.

ITER’s toroidal field coils—the experiment’s magnets—will be cooled to just -452.2 degrees Fahrenheit (-269 degrees Celsius), making them superconductive.

It does this by dumping the toroidal field in favor of a linear one that is based on what is called the Field-Reversed Configuration (FRC) principle. The Norm reactor. TAE TEchnologies.

The 19-foot toroidal field (TF) magnet carries up to 4 million amps of electric current to stabilize and confine the superhot plasma in fusion experiments.

The toroidal field coils will operate together, in effect, as a single magnet: the most powerful magnet ever made. They will generate a total magnetic energy of 41 gigajoules.

With their innovative design, tokamak reactors are leading the charge in fusion research, aiming to unlock the potential of ...

But in a toroidal coil, the field lines go around the core, back to the start without exiting the toroid. Any turn, forms a full loop – because the rest of the circuit, ...

The researchers found that the toroidal pulses contained complex features such as skyrmions. These are made up of numerous electric field vectors and can be thought of as two-dimensional whirls (or ...

The toroidal boat propeller pair installed. (Credit: rctestflight) As boring as propeller designs may seem to the average person, occasionally there’s a bit of a dust-up in the media about a ...

Europe has also delivered 10 of ITER's Toroidal Field magnets and has produced a substantial portion of the Niobium-Tin (Nb 3 Sn) superconductors used in these TF magnets.

The 19-foot toroidal field (TF) magnet carries up to 4 million amps of electric current to stabilize and confine the superhot plasma in fusion experiments.