The Japan Times - Scientists in UK set fusion record

Nuclear fusion is the same process that the sun uses to generate heat. Proponents believe it could one day help tackle climate change by providing an abundant, safe and clean source of energy.

A team at the JET facility near Oxford in central England generated 69 megajoules for five seconds using 0.2 milligrams of fuel, beating its previous record set in 2022 by 10 megajoules, the UK Atomic Energy Authority (UKAEA) said.

That is enough to power around 41,000 homes for five seconds.

It is the final experiment to be conducted at the JET site using a donut-shaped machine called a tokamak.

"JET has operated as close to power-plant conditions as is possible with today's facilities, and its legacy will be pervasive in all future powerplants," said Ian Chapman, UKAEA CEO.

"JET's research findings have critical implications not only for ITER -– a fusion research mega-project being built in the south of France -– but also for ... other global fusion projects, pursuing a future of safe, low-carbon, and sustainable energy," he added.

Over 300 scientists and engineers from EUROfusion, a consortium of researchers across Europe, contributed to JET's landmark experiments over 40 years.

Inside JET's tokamak, 0.1 milligrammes each of deuterium and tritium -- both isotopes of hydrogen -- were heated to temperatures 10 times hotter than the centre of the sun to create plasma.

This mixture was held in place using magnets as it spun around, fusing and releasing tremendous energy as heat.

Fusion is inherently safe in that it cannot start a run-away process.

Deuterium is freely available in seawater, while tritium can be harvested as a byproduct of nuclear fission.

Using equivalent weights, it releases nearly four million times more energy than burning coal, oil or gas, and the only waste product is helium.

Despite the new record, JET did not generate more energy than was put into producing it.

The Lawrence Livermore National Laboratory in the United States became the only facility to achieve this feat -- the holy grail of nuclear fusion -- in late 2022, using a different process involving lasers.

JET conducted its first deuterium-tritium experiments in 1997.

The results announced Thursday demonstrated the ability to create fusion for five seconds, as longer than that would cause JET's copper wire magnets to overheat.

ITER will be equipped with superconductor electromagnets which will allow the process to continue for longer, hopefully longer than 300 seconds.

If all goes well at ITER, a prototype fusion power plant could be ready by 2050.

International cooperation on fusion energy has historically been close because, unlike the nuclear fission used in atomic power plants, the technology cannot be weaponised.

The France-based megaproject also involves China, the EU, India, Japan, South Korea, Russia and the US.

K.Nakajima--JT