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Science

Lab hits milestone on long road to fusion power

With 192 lasers and temperatures more than three times hotter than the center of the sun, scientists hit at least for a fraction of a second a key milestone on the long road toward nearly pollution-free fusion energy.

Researchers sparked a fusion reaction that briefly sustained itself at U.S. national lab

Futuristic blue hallway with pipes
A colour-enhanced image shows the inside of a NIF preamplifier support structure at the National Ignition Lab at Lawrence Livermore National Laboratory in California. Researchers at the lab were able to spark a fusion reaction that briefly sustained itself a major feat because fusion requires such high temperatures and pressures that it easily fizzles out. (Damien Jemison)

With 192 lasers and temperatures more than three times hotter than the centre of the sun, scientists hit at least for a fraction of a second a key milestone on the long road toward nearly pollution-free fusion energy.

Researchers at the National Ignition Facility at the Lawrence Livermore National Lab in California were able to spark a fusion reaction that briefly sustained itself a major feat because fusion requires such high temperatures and pressures that it easily fizzles out.

The ultimate goal, still years away, is to generate power the way the sun generates heat, by pushing hydrogen atoms so close togetherthat they combine into helium, which releases torrents of energy.

A team of more than 100 scientistspublished the results of four experiments that achieved what is known as a burning plasma in Wednesday's journal Nature.

'It's basically limitless clean energy'

With those results, along with preliminary results announced last August from follow-up experiments, scientists say they are on the threshold of an even bigger advance: ignition. That's when the fuel can continue to "burn" on its own and produce more energy than what's needed to spark the initial reaction.

"We're very close to that next step," said study lead author Alex Zylstra, an experimental physicist at Livermore.

Nuclear fusion presses together two types of hydrogen found in water molecules. When they fuse, "a small amount [milligrams] of fuel produces enormous amounts of energy and it's also very 'clean,' in that it produces no radioactive waste," said Carolyn Kuranz, a University of Michigan experimental plasma physicist who wasn't part of the research.

"It's basically limitless clean energy that can be deployed anywhere."

Researchers around the world have been working on the technology for decades, trying different approaches. Thirty-five countries are collaborating on a project in southern France called the International Thermonuclear Experimental Reactor that uses enormous magnets to control the superheated plasma. That is expected to begin operating in 2026.

This image provided by the National Ignition Facility shows the NIF Target Bay in Livermore, Calif. The system uses 192 laser beams converging at the centre of this giant sphere to make a tiny hydrogen fuel pellet implode. (Damien Jemison/Lawrence Livermore National Laboratory/The Associated Press)

Earlier experiments in the United States and United Kingdom succeeded in fusing atoms, but achieved no self-heating, said Steven Cowley, director of the Princeton Plasma Physics Laboratory, who wasn't part of this study.

How close is fusion now?

But don't bank on fusion just yet.

"The result is scientifically very exciting for us," said study co-author Omar Hurricane, chief scientist for Lawrence Livermore's fusion program. "But we're a long way from useful energy."

Maybe decades, he said.

It's already taken several years inside a lab that is straight out of Star Trek one of the movies used thelab as background visuals for the Enterprise's engine room and many failed attempts to get to this point.

One adjustment that helped: Researchers made the fuel capsule about 10 per cent bigger. Now it's up to the size of a BB.

That capsule fits in a tiny gold metal can that researchers aim 192 lasers at. They heat it to about 100 million degrees, creating about 50 per centmore pressure inside the capsule than what's inside the centre of the sun. These experiments created burning plasmas that lasted just a trillionth of a second, but that was enough to be considered a success, Zylstra said.

The Target Bay of the National Ignition Facility at the Lawrence Livermore National Laboratory in Livermore, Calif., is seen in an undated handout image. (Damien Jemison/Reuters)

Overall, the four experiments in the Nature study conducted in November 2020 and February 2021 produced as much as 0.17 megajoules of energy.That's far more than previous attempts, but still less than one-tenth of the power used to start the process, Zylstra said.

Amegajoule is enough energy to heat 2.4 L of water by 100 degrees Celsius.

Preliminary results from experiments done later in 2021, which are still being reviewed by other scientists, pushed energy output to 1.3 megajoules and lasted 100 trillionths of a second, according to a government press release. But even that is shy of the 1.9 megajoules needed to break even.

"The major problem with fusion is that it is hard," said Princeton's Cowley. "Otherwise, it might be the perfect way to make energy sustainable, plentiful, safe and minimal environmental impact."

Corrections

  • A previous version of this story said a megajoule is about enough energy to heat 3.8litres (a gallon) of water by38 Celsius (100 Fahrenheit). In fact, raising the temperature by 100 F is equivalent to raising it by 56 C. Also, a megajoule is enough energy to heat 2.4 L of water by 100 C.
    Feb 02, 2022 7:27 AM ET

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