The EAST (Experimental Advanced Superconducting Tokamak) nuclear fusion reactor maintained a temperature of 158 million degrees Fahrenheit (70 million degrees Celsius) for 1,056 seconds, according to the Xinhua News Agency. The achievement brings scientists a small yet significant step closer to the creation of a source of near-unlimited clean energy.
The Chinese experimental nuclear fusion reactor smashed the previous record, set by France's Tore Supra tokamak in 2003, where plasma in a coiling loop remained at similar temperatures for 390 seconds. EAST had previously set another record in May 2021 by running for 101 seconds at an unprecedented 216 million F (120 million C). The core of the actual sun, by contrast, reaches temperatures of around 27 million F (15 million C).
Fusion energy should be treated as a solution, not just an experiment
Working in fusion’s favor, however, are scientists and engineers who think it’s not just possible, but inevitable.
“I’m a true believer. I do think we can solve this problem,” said Troy Carter, a plasma physicist at the University of California Los Angeles. “It will take time, but the real issue is getting the resources brought to bear on these issues.”
Increasing energy access is closely linked to improving health, economic growth, and social stability. Yet close to a billion people still don’t have electricity and many more only have intermittent power, so there is an urgent humanitarian need for more energy.
At the same time, the window for limiting climate change is slamming shut, and electricity and heat production remain the dominant sources of heat-trapping gases in the atmosphere. To meet one of the goals of the Paris climate agreement — limiting warming to less than 1.5 degrees Celsius this century — the world needs to cut greenhouse gas emissions by half or more by 2030, according to the Intergovernmental Panel on Climate Change. Many of the world’s largest greenhouse gas emitters are also aiming to zero out their contributions to climate change by the middle of the century. Making such drastic cuts in emissions means phasing out fossil fuels as quickly as possible and rapidly deploying much cleaner sources of energy.
The technologies of today may not be up to the task of resolving the tension between the need for more energy and the need to reduce carbon dioxide emissions. A problem like climate change is an argument for placing bets on all kinds of far-reaching energy solutions, but fusion may be the technology with the highest upside. And on longer time scales, closer to the 2040s and 2050s, it could be a real solution.
With more investment from governments and the private sector, scientists could speed up their pace of progress and experiment with even more approaches to fusion. In the US, where much of the research is conducted at national laboratories, this would mean convincing your representatives in Congress to get excited about fusion and ultimately to spend more money. Lawmakers can also encourage private companies to get into the game by, for example, pricing carbon dioxide emissions to create incentives for clean energy research.
The key, according to Carter, is to ensure support for fusion remains steady. “Given the level of importance here and the amount of money invested in energy, the current investment in fusion is a drop in the bucket,” Carter said. “You could imagine ramping it up orders of magnitude to get the job done.”
He added that funding for fusion doesn’t have to cannibalize resources from other clean energy technologies, like wind, solar, and nuclear power. “We need to invest across the board,” Carter said.
For now, the big fusion experiments at NIF and ITER will continue inching forward. At NIF, scientists will continue refining their process and steadily work their way up toward energy-positive fusion. ITER is scheduled to begin operation in 2025 and start hydrogen fusion experiments in 2035.
Artificial star power might not illuminate the world for decades, but the foundations have to be laid now through research, development, and deployment. It may very well become humanity’s crowning achievement, more than a century in the making.
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