Canadian startup General Fusion has been working on its unique approach to producing clean energy through nuclear fusion for ...

Plasma confinement is one of the most critical and technically demanding aspects of fusion energy. Two primary methods are currently being explored: Magnetic Confinement: This method uses powerful ...

The success of such experiments depends on multiple key factors, including optimized magnetic fields that could display enhanced fusion plasma confinement. Introduced by researchers at Laboratorio ...

Magnetic confinement reactors work by squeezing the plasma so it flows around a torus, and then compressing the torus with magnetic field and heating it by blasting in energy via particle ...

The Canadian company General Fusion is relying on a different concept to other nuclear fusion projects. It has put a ...

If plasma density exceeds this threshold, instabilities can arise, disrupting the confinement process and halting fusion.

Understanding, modelling and controlling plasma is extremely complex but researchers have made great strides over the past decades. Scientists use magnetic confinement devices to manipulate plasmas.

The ASDEX-Upgrade is a magnetic confinement fusion facility based on the tokamak concept operated by the Max-Planck-Institute for plasma physics in Garching, Germany. The full name of ASDEX is ...

I'm working on applications to accelerator lattices and instabilities, advanced acceleration concepts, transport in fusion plasma confinement systems, plasma turbulence. Ariniello R, Doss CE, Lee V, ...

Plasma specialist heads to Peking University to pursue magnetic confinement on mission to make nuclear fusion a reality.