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Hard Science

Scientists blow up their lab after creating strongest magnet ever

It’s a record magnetic field, but… yeah. That didn’t last long.

Photo: The University of Tokyo.

Key Takeaways
  • Scientists knew that it would probably explode, but they did not expect to reach such a record magnetic field.
  • Magnetic fields are measured in teslas, after Nikola Tesla.
  • This one reached a record 1,200 teslas, 400 times stronger than an MRI; watch it explode in the video

1,200 teslas later… a huge white light engulfs the lab. Video below!

Photo: The University of Tokyo.

“With magnetic fields above 1,000 teslas, you open up some interesting possibilities,” lead researcher Takeyama explained. “You can observe the motion of electrons outside the material environments they are normally within. So we can study them in a whole new light and explore new kinds of electronic devices. This research could also be useful to those working on fusion power generation.”

The study, published in Review of Scientific Instruments, was released on September 17.

To achieve the record, the team used a technique known as electromagnetic flux-compression (EMFC). The instrument, which generates a low-strength magnetic field of 3.2 teslas, was attached to a row of capacitors that generate 3.2 megajoules, which is a huge amount of energy.

This compresses the magnetic field into a tiny area extremely quickly. But, as the team predicted, it can’t be compressed for long, eventually creating a shock wave that rips the instrument apart. They expected this to happen after about 700 teslas, as that’s what it was built to withstand. But incredibly, it reached 1,200 before exploding.

Graphic illustration of how the scientists hit the record.

Image by University of Tokyo.

Another view of the magnetic explosion

This image explains it a bit better, from the IEEE institute. “The University of Tokyo’s 1,200-Tesla magnetic field generator is powered by a bank of capacitors [on left, white] capable of storing 5 megajoules. The capacitors’ energy flows into the primary coil [bottom left, gray] and induces a counteracting current and magnetic field in the liner [orange]. This implodes the liner in 40 microseconds, compressing the magnetic field [bottom right].”

Watch it go boom


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