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Power Science

Fusion Experiment Demonstrates Cheaper Stellerator Using Creative Magnet Workaround (pppl.gov) 41

Popular Science reports that early last week, researchers at the U.S. Energy Department's Princeton Plasma Physics Laboratory revealed their new "MUSE" stellarator — "a unique fusion reactor that uses off-the-shelf and 3D-printed materials to contain its superheated plasma."

The researchers' announcement says the technique suggests "a simple way to build future devices for less cost and allow researchers to test new concepts for future fusion power plants." Stellarators typically rely on complicated electromagnets that have complex shapes and create their magnetic fields through the flow of electricity. Those electromagnets must be built precisely with very little room for error, increasing their cost. However, permanent magnets, like the magnets that hold art to refrigerator doors, do not need electric currents to create their fields. They can also be ordered off the shelf from industrial suppliers and then embedded in a 3D-printed shell around the device's vacuum vessel, which holds the plasma.

"MUSE is largely constructed with commercially available parts," said Michael Zarnstorff, a senior research physicist at PPPL. "By working with 3D-printing companies and magnet suppliers, we can shop around and buy the precision we need instead of making it ourselves." The original insight that permanent magnets could be the foundation for a new, more affordable stellarator variety came to Zarnstorff in 2014. "I realized that even if they were situated alongside other magnets, rare-earth permanent magnets could generate and maintain the magnetic fields necessary to confine the plasma so fusion reactions can occur," Zarnstorff said, "and that's the property that makes this technique work." [...]

In addition to being an engineering breakthrough, MUSE also exhibits a theoretical property known as quasisymmetry to a higher degree than any other stellarator has before. It is also the first device completed anywhere in the world that was designed specifically to have a type of quasisymmetry known as quasiaxisymmetry. Conceived by physicist Allen Boozer at PPPL in the early 1980s, quasisymmetry means that although the shape of the magnetic field inside the stellarator may not be the same around the physical shape of the stellarator, the magnetic field's strength is uniform around the device, leading to good plasma confinement and higher likelihood that fusion reactions will occur. "In fact, MUSE's quasisymmetry optimization is at least 100 times better than any existing stellarator," Zarnstorff said.

"The fact that we were able to design and build this stellarator is a real achievement," said Tony Qian, a graduate student in the Princeton Program in Plasma Physics, which is based at PPPL.

Also covered by Gizmodo. Thanks to Slashdot reader christoban for sharing the news.
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Fusion Experiment Demonstrates Cheaper Stellerator Using Creative Magnet Workaround

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  • Great news (Score:4, Funny)

    by backslashdot ( 95548 ) on Sunday April 14, 2024 @12:36AM (#64392812)

    I'm glad my fusion powered anti-gravity FTL flying car is still on schedule to arrive at now + 50 years.

    • The above comment was a joke btw. It's awesome so much progress is being made with our best minds working on it. Appreciate all the work being done to make it happen. Hope it gets done before its too late.

    • But the marketing said 40 and the cup holder is still in beta!

  • by christoban ( 3028573 ) on Sunday April 14, 2024 @12:41AM (#64392822)

    Huh, I submitted this same article a week ago, got an email that it was accepted, then it was immediately removed for Slashdot's front page. Now it's back under someone else's name.

  • My electric bill is too damn high.

  • by laughingskeptic ( 1004414 ) on Sunday April 14, 2024 @09:38AM (#64393440)
    In 2103 the Wendelstein 7-X (W7-X) stellarator was fully modeled before being built plasma reactor, so in effect the experiments in 2015 at the Max Planck Institute for Plasma Physics were the first times plasma physics was more science than phenomenology. Again with the MUSE stellarator we finally have the ability to model over one hundred thousand small rare earth magnets. With coil based magnets, current could be varied after the fact to tune a stellarator, but with the MUSE, they have to get the design right from the beginning. The big news is that we can now do this. We have entered a new era of plasma physics because our compute capabilities have reached the point that we can actually design plasma reactors.
  • But Does It Work? (Score:4, Interesting)

    by sudonim2 ( 2073156 ) on Monday April 15, 2024 @09:55AM (#64395522)

    I didn't see anything in the article to suggest that the reactor has actually successfully produced a fusion reaction. I'm not talking about net power gain. I mean I didn't read anything to suggest that they've even induced fusion in the reactor at all. The off the shelf permanent magnets don't seem to have enough power to actually confine plasma to fusion temperatures. I'm pretty sure the only thing this "reactor" has done is show that the magnetic field they've generated is actually consistent with with their mathematical models, meaning it's not actually a reactor at all as there is no reaction taking place inside it.

    The reason electromagnets, usually superconducting magnets, are used in fusion devices is that permanent magnets simply can't generate enough Teslas of magnetic flux to confine a plasma of fusion temperatures. Proving that you can make a quasisymetrical field with permanent magnets for a fusion reactor is pointless if you can't make permanent magnets with enough strength to hit net energy gain in a fusion reaction. This is maybe an interesting theoretical paper and a good thesis project for some grad students or post-docs, but it's not really advancing fusion power research.

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