联合王国科学家在托卡马克稳定了聚变等离子体和受控热,达到3 500万摄氏度,推进了清洁能源目标。 UK scientists stabilized fusion plasma and controlled heat in a tokamak, reaching 35 million°C, advancing clean energy goals.

Culham聚变能源中心的英国科学家已经稳定了MAST-U球形托卡马克的动荡等离子体,首次利用磁场抑制了破坏性边缘定位模式。 British scientists at the Culham Centre for Fusion Energy have stabilized turbulent plasma in the MAST-U spherical tokamak, suppressing damaging edge-localized modes for the first time using magnetic fields. 他们还独立控制了反应堆的上流和下流分流器,这是管理热和微粒的关键一步。 They also achieved independent control of the reactor’s upper and lower divertors, a key step for managing heat and particles. 实验温度超过3500万摄氏度, 推进英国核聚变研究, 让实际、无碳能源更接近现实, The experiment reached temperatures over 35 million degrees Celsius, advancing the UK’s fusion research and bringing practical, carbon-free energy closer to reality, with a prototype power station targeted for the 2040s.