It also plays a major role in plasma physics, especially as it pertains to nuclear fusion. In the case of inertial confinement fusion (ICF) the rapidly laser-heated pellet of deuterium-tritium ...

Therefore, hot plasma can be confined by strong magnetic fields. Inertial confinement fusion This approach is based on maximizing density by the rapid compression and heating of a small solid DT ...

More information: Hui Chen et al, Understanding the deficiency in inertial confinement fusion hohlraum X-ray flux predictions using experiments at the National Ignition Facility, Physical Review E ...

The reactor, called Lawson Machine 26 (LM26), is General Fusion’s latest iteration in a string of devices that have tested ...

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

To answer that question, we have to take a look at inertial confinement fusion (ICF), which is the technology at the core of the NIF’s experiments. MCF found a second life in the form of tokamak ...

There are two approaches to achieving fusion in the lab: inertial confinement fusion, which uses powerful lasers, and magnetic confinement fusion, which uses powerful magnets. While the ...

General Fusion appears to be one step closer to making Canada a major player in fusion reactors.

The Earth possesses virtually inexhaustible reserves of the raw materials—deuterium and tritium—essential for a fusion ...

Most fusion startups are pursuing one of two approaches: inertial confinement, where lasers compress fuel pellets to ignite fusion pulses, and magnetic confinement, where large magnets corral plasma ...