Engineers at a lab in Florida have been working quietly for 2½ years on building one of the most powerful magnets in the world.

And on Monday, they succeeded. The National High Magnetic Field Laboratory — whose main location is housed at Florida State University — met its goal and reclaimed its status as home to the world’s strongest resistive magnet.

They called it “Project 11,” a nod to the comedy film “This is Spinal Tap,” about a fictional heavy metal band whose guitarist boasts an amplifier whose volume goes up to 11, not just 10.

Lab officials said they tested a 41.4-tesla magnet, which is roughly 20 times the strength of a magnet used in medical imaging machines and vastly stronger than the ones that get stuck to the door of a household refrigerator. The Earth’s magnetic field, by comparison, is one-twenty thousandth (.00005) of a tesla. A tesla is a measure of magnetic field strength.

The new magnet, which cost $3.5 million to build, beat the old mark for resistive magnets, which was held by a 38.5-tesla magnet in China. The National MagLab had previously held the record for 19 years.

Greg Boebinger, the lab’s director, said the loss of the record prompted officials to tell engineers, “Go ahead and make the thing bigger, go ahead and use more power, just go full volume to 11 and see what you can do.”

Continuous operation

Resistive magnets are a type of electromagnet used for research. They differ from pulsed magnets, which can reach a higher Tesla but can sustain that power for only a fraction of a second. Resistive magnets can run continuously. Superconducting magnets use less power but tap out at a lower field strength. Hybrid magnets combine superconducting and resistive elements and can reach even higher fields. The National MagLab has the world’s strongest hybrid magnet, which reaches 45 tesla.

Researchers say they can use these powerful magnets to answer many questions, such as: What kinds of materials will work best in quantum computers? How does a potential Alzheimer’s drug change the brain? What molecules make up a sample of crude oil — and will it be worth drilling for?

The new record-setting magnet is powerful enough that lab officials use non-magnetic tools, but it’s not as powerful as some imagine.

“Local people think we change the weather,” said Boebinger, who said he gets asked about Magneto all the time. “We don’t even change the magnetic field outside our building.”

Instead, the magnetic field created by the new magnet will be used by researchers and scientists from around the world as a way to look at and study various types of materials and perhaps make breakthroughs in medicine, engineering and energy.

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