Negative triangularity is changing fusion energy! The SMART tokamak's new plasma shape could lead to compact, efficient ...

He has drawn inspiration from various projects over the years, which have culminated in a unique take on a fusion reactor design ... fusion pulses, and magnetic confinement, where large magnets ...

Magnetic confinement is now seen as the primary path to make nuclear fusion a reality. The most common fusion reactors of this type are tokamaks and stellarators. Research by Liu has been ...

In a comprehensive experimental study, an international team of researchers has confirmed the calculations of a leading ...

Fusion energy, the process of fusing light atomic nuclei to generate energy, has long been considered the key to a clean and ...

Deployment of new energy technologies Drives Nuclear Fusion Market Growth from USD 351.17 Bn. Global Nuclear Fusion Market Key Takeaways • In terms of Technology, Magnetic confi ...

General Fusion announced on Tuesday that it had successfully created plasma, a superheated fourth state of matter required for fusion, inside a prototype reactor. The milestone marks the beginning of ...

General Fusion’s MTF reactor design relies on steam-driven pistons. Inside the chamber, deuterium-tritium fuel is zapped with a bit of electricity to generate a magnetic field, which helps keep ...

Perhaps Liu’s return to China signaled his belief that his native country was about to take the lead in the world fusion race. China’s Experimental Advanced Superconducting Tokamak (EAST) is a nuclear ...

The ITER, which uses magnetic confinement by employing a doughnut ... establishing fusion as a practical source of energy. For fusion reactors to be deemed viable for commercial energy generation ...