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The Strongest Indoor Magnetic Field Ever

posted by chromas on Saturday September 29 2018, @08:08AM   Printer-friendly
from the world's-best-disk-drive-eraser dept.

martyb writes:

Motherboard has a report on The Strongest Indoor Magnetic Field Ever:

Earlier this year, researchers at the University of Tokyo accidentally created the strongest controllable magnetic field in history and blew the doors of their lab in the process.

As detailed in a paper recently published in the Review of Scientific Instruments, the researchers produced the magnetic field to test the material properties of a new generator system. They were expecting to reach peak magnetic field intensities of around 700 Teslas[*], but the machine instead produced a peak of 1,200 Teslas. (For the sake of comparison, a refrigerator magnet has about 0.01 Tesla)

This is the strongest magnetic field ever generated in a controlled, indoor environment, but it's not the strongest magnetic field produced in history. This honor belongs to some Russian researchers who created a 2,800 Tesla magnetic field in 2001.

In both the Japanese and Russian experiments, the magnetic fields were generated using a technique called electromagnetic flux-compression. This technique causes a brief spike in the strength of the magnetic field by rapidly "squeezing" it to a smaller size. This technique has been around since the 1940s (pdf), but in the early days it relied on using large amounts of TNT to generate an explosion powerful enough to compress the magnetic field. The downside of this technique was that it could only be done once since the explosion destroyed the equipment. Furthermore, it was difficult to reproduce and control the explosion.

Instead of using TNT to generate their magnetic field, the Japanese researchers dumped a massive amount of energy—3.2 megajoules—into the generator to cause a weak magnetic field produced by a small coil to rapidly compress at a speed of about 20,000 miles per hour. This involves feeding 4 million amps of current through the generator, which is several thousand times more than a lightning bolt. When this coil is compressed as small as it will go, it bounces back. This produces a powerful shockwave that destroyed the coil and much of the generator.

"Destroyed" the coil and much of the enclosure. In other words: Ka-Boom!! Here's a short youtube video of the test. Undaunted:

"I didn't expect it to be so high," Shojiro Takeyama, a physicist at the University of Tokyo, told IEEE Spectrum. "Next time, I'll make [the enclosure] stronger."

Next time. They intend to make an even bigger boom; they just need a stronger enclosure to blow it up in!

[*] Wikipedia entry on Tesla, a measure of the strength of a magnetic field.

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  • (Score: 0) by Anonymous Coward on Saturday September 29 2018, @11:32AM (7 children)

    by Anonymous Coward on Saturday September 29 2018, @11:32AM (#741756)

    "Next time, I'll make [the enclosure] stronger."

    Scientists for you. It blew the doors off the lab! Again! Let's do it again!

  • (Score: 3, Insightful) by The Mighty Buzzard on Saturday September 29 2018, @01:44PM (3 children)

    by The Mighty Buzzard (18) Subscriber Badge <themightybuzzard@proton.me> on Saturday September 29 2018, @01:44PM (#741788) Homepage Journal

    You can tell it's good science when there's gratuitous destruction.

    --
    My rights don't end where your fear begins.

    • (Score: 4, Interesting) by martyb on Saturday September 29 2018, @08:06PM

      by martyb (76) Subscriber Badge on Saturday September 29 2018, @08:06PM (#741891) Journal

      You can tell it's good science when there's gratuitous destruction.

      From Derek Lowe's Things I Won't Work With [sciencemag.org] blog:

      And for more reading pleasure, take a gander at IGNITION! An Informal History of Liquid Rocket Propellants by John D. Clark which requires only basic chemistry knowledge and contains a similarly irreverent and humorous writing style. A search will reveal PDFs of a scanned copy of the original, but Rutgers University Press Classics [amazon.com] has recently republished this work, as well.

      --
      Wit is intellect, dancing.

    • (Score: 1) by Ethanol-fueled on Sunday September 30 2018, @01:46AM (1 child)

      by Ethanol-fueled (2792) on Sunday September 30 2018, @01:46AM (#741972) Homepage

      Anytime you're working with bare relays (or other coils) this is why you have to put a flyback diode in parallel with the relay, cathode toward the high-side. Because when you de-energize the coil, the collapse of the electromagnetic field induces a surge of up to thousands of volts, which fries all delicate semiconductors around it.

  • (Score: 2) by MrGuy on Saturday September 29 2018, @03:23PM (1 child)

    by MrGuy (1007) on Saturday September 29 2018, @03:23PM (#741812)

    XKCD, as always, is on point. [xkcd.com]

  • (Score: 0) by Anonymous Coward on Saturday September 29 2018, @09:44PM

    by Anonymous Coward on Saturday September 29 2018, @09:44PM (#741918)

    Read that sentence again, there is no "off" in it.
    "researchers at the University of Tokyo accidentally created the strongest controllable magnetic field in history and blew the doors of their lab in the process"
    So, they created a strong magnetic field by accident, then decided to blow the doors as a celebration? Lucky doors....