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Researchers at a laboratory in California say they've had a breakthrough in producing fusion reactions with a giant laser. The success comes after years of struggling to get the laser to work and is another step in the decades-long quest for fusion energy.

, says that for the first time, they've produced significant amounts of fusion by zapping a target with their laser. "We've gotten more energy out of the fusion fuel than we put into the fusion fuel," he says.
Strictly speaking, while more energy came from fusion than went into the hydrogen fuel, only about 1 percent of the laser's energy ever reached the fuel. Useful levels of fusion are still a long way off. "They didn't get more fusion power out than they put in with the laser," says 

, the head of a huge fusion experiment in the U.K. called the 

, or NIF. Constructed at a cost of more than $3 billion, it consists of 192 beams that take up the length of three football fields. For a brief moment, the beams can focus 500 trillion watts of power — more power than is being used in that same time across the entire United States — onto a target about the width of a No. 2 pencil.


The goal is fusion: a process where hydrogen atoms are squeezed together to make helium atoms. When that happens, a lot of energy comes out. It could mean the answer to the world's energy problems, but fusion is really, really hard to do. Hurricane says that each time they try, it feels like they're taking a test.

"Of course you want to score real well, you think you've learned the material, but you just have to see how you do," he says.

 For all its power, it just couldn't get the hydrogen to fuse, and researchers didn't know why. The failures have led NIF's critics to label the facility an enormous waste of taxpayer dollars. In 2012, the government shifted NIF away from its fusion goals to focus on its other mission: 

simulating the conditions inside nuclear weapons

.
But the fusion experiments continued, and Hurricane says researchers now understand why their original strategy wasn't working. In the journal 

 that they've finally figured out how to squeeze the fuel with the lasers. By doing a lot of squeezing right at the start, they were able to keep the fuel from churning and squirting out. The lasers squeezed evenly and the hydrogen turned into helium.


The new technique can't reach "ignition," which is the point at which the hydrogen fusion feeds on itself to make more. Even so, JET's Cowley says, this is still a big moment for NIF.

"I think it's still a very important step forward, they reached fusion conditions, they made some fusion happen, and that's not been done before [with a laser]," he says.


Hurricane says no one knows for sure whether NIF can really reach the point of ignition. "It's not up to me; it's up to Mother Nature," he says. "But we're certainly going to try."  Copyright 2019 NPR. To see more, visit https://www.npr.org.

Science

Geoff Brumfiel

Author

The success comes after years of struggling to get the laser to work and is another step in the decades-long quest for fusion energy.

Scientists say their giant laser has produced nuclear fusion

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