Breakthroughs from two rival experiments, Germany’s Wendelstein 7-X and the Joint European Torus, suggest the elusive dream ...

The global fusion energy market, driven by international collaborations and private ventures, is advancing rapidly with a ...

The research team details the discovery of a shortcut that can enable engineers to design leak-proof magnetic confinement systems ten times faster than the current standard method, without ...

Scientists use magnetic confinement devices to manipulate plasmas. The most common fusion reactors of that kind are tokamaks and stellarators. Currently, these are the most promising concepts for ...

Plasma confinement, essential for sustaining fusion reactions, relies on methods like magnetic confinement (e.g., tokamaks and stellarators) and inertial confinement, both of which face stability ...

The other is magnetic confinement, ... The government, mostly through the Energy Department’s Fusion Energy Sciences program, is spending about $700 million a year to fund the science.

One of the most advanced kind of fusion energy globally approaches is magnetic confinement. These ring-shaped machines use powerful magnetic fields to contain super-hot plasma, creating the ...

A file illustration of an atom. Nuclear fusion is the process of joining atoms together, which releases energy. vchal/Getty. However, scientists have yet to achieve a nuclear fusion reaction that ...

Artist's impression of plasma inside a fusion reactor using magnetic confinement to force the atoms to fuse together. This is similar to the process that creates energy at the center of the sun.