Brit boffins have a £2.5 billion ($3.4 billion) budget for fusion power research and development, and the government agency leading the effort has published a roadmap of targets to hit before the decade is out.
The UK Atomic Energy Authority (UKAEA) isn't promising a working commercial fusion reactor by 2030, though it does want key development milestones in place that will build toward one.
The bulk of that funding will flow into the Spherical Tokamak for Energy Production (STEP) project, earmarked for a former coal power station site in Nottinghamshire, and UKAEA's Culham Campus in Oxfordshire, its HQ and home of the MAST (Mega Amp Spherical Tokamak) research programme.
MAST Upgrade fusion machine at UKAEA's Culham Campus
In its Strategy report for 2026-2030, the agency identifies four interrelated challenges common to all mainstream approaches for generating fusion energy.
First is building a fusion core capable of delivering sufficient power while handling superheated plasma. Second is fuel self-sufficiency: developing a cycle that doesn't depend on a regular supply of tritium, a rare hydrogen isotope.
Third is integration: orchestrating the diverse array of components and systems that make up a fusion reactor to work together, in the face of what the UKAEA says are "uncertainties that in many cases are significant and potentially unquantifiable."
The final challenge is perhaps the biggest of all: cost, or ensuring that the solutions to the other challenges deliver a commercially viable plant.
"The breadth and depth of fusion's technical challenges means that a national RDI (research, development, and innovation) capability will be needed to underpin long-term national competitiveness in sustainable fusion energy," the report says. "This final challenge anchors the enduring need for UKAEA, up to, during, and beyond the deployment of STEP and successive fusion power plants led by UK Fusion Energy (UKFE)," it concludes.
UKAEA says a coordinated and strategic approach is essential to deliver on the government's Fusion Strategy. The agency hopes this policy of working toward challenging but achievable targets will reduce risk on the pathway to deployable fusion. As a side effect, it also hopes to stimulate the growth of a fusion supply chain.
Scientists working at MAST last year claimed a significant step toward practical fusion energy by applying a 3D magnetic field to counteract instabilities in a spherical tokamak plasma for the first time.
Advanced computing will be central to all of this. The UK government last month announced £45 million ($60 million) for a new AI-driven supercomputer called Sunrise, expected online this summer at the Culham Campus. It is designed to help scientists model the physics of nuclear fusion.
Digital twins, real-time data processing, and simulation-backed forecasting are also expected to play key roles in designing and operating future facilities safely and efficiently.
As part of the 2026-2030 Strategy rollout, UKAEA is also publishing a guide to help SMEs find opportunities in the fusion supply chain; launching the Cumbria Robotics Operation Skills Centre (CROSS) to ready the workforce with the skills needed for fusion operations; and establishing the Diagnostics Centre for Excellence (DICE).
STEP, which will be the UK's prototype fusion power plant, remains on track for completion by 2040, with construction due to begin in 2030 – all of which seems a long way off considering the urgency of developing reliable, emissions-free energy sources, without the drawbacks of nuclear fission.
"We are focused on technical excellence and delivery in key technology areas essential for future fusion power plants and building a thriving commercial industry to support fusion," said UKAEA chief Dr Tim Bestwick.
The old joke that fusion is always 30 years away has lately faced stiff competition from AI hype, where superhuman machine intelligence is perpetually just around the corner. UK firm Tokamak Energy estimated in 2024 that viable fusion tech could be ready in a decade, although it will take considerably longer to commercialize it. ®
Source: The register