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  • - [Narrator] Widespread floating trains.

  • Nuclear fusion.

  • Marty McFly's hoverboard.

  • - He's on a hoverboard.

  • - [Narrator] It sounds like the future

  • but many scientists say these types

  • of advances aren't as far away as we think.

  • They all hinge on one thing, a room-temperature,

  • ambient pressure superconductor, and in July,

  • some scientists claimed to have found just that,

  • sending stock prices for companies

  • with a perceived connection to superconductors soaring.

  • - A breakthrough like this

  • really could mean longer lasting batteries for our devices,

  • revolutionizing medical imaging.

  • It could mean more efficient electrical grids.

  • It could mean improved high speed trains.

  • There's almost no aspect

  • of our daily life that a room-temperature,

  • ambient pressure superconductor wouldn't touch

  • if commercially applied.

  • - [Narrator] That's why investors,

  • despite doubts surrounding the search,

  • are still backing the effort.

  • Here's where the science stands

  • and what it could take

  • to bring such a superconductor to market.

  • When electricity flows from one place to another,

  • it travels along some type of conductor, usually a metal.

  • Those conductors put up some resistance, which results

  • in some of the energy being lost as heat.

  • That's why your phone or computer can get really warm.

  • Superconductors eliminate that resistance

  • and can transmit energy without loss.

  • - Superconductors, obviously,

  • if they conduct electric current perfectly,

  • it means they're extremely efficient.

  • - [Narrator] But these materials typically only work

  • in extreme conditions,

  • temperatures as cold

  • as roughly negative 320 degrees Fahrenheit

  • or extremely high pressure.

  • - There's always an investment

  • to do the necessary cryogenics.

  • If you're using copper and it has a little bit of loss

  • but the superconductor is much more expensive

  • for most of your applications,

  • you might wanna use copper instead.

  • Just because you have a superconductor,

  • the question is whether it's gonna be useful or not.

  • - [Narrator] Because of that,

  • superconductors, as they exist today, are used

  • in limited circumstances, for example, MRI machines

  • but there's also been investment in broader uses.

  • The Departments of Energy and Homeland Security

  • have funded initiatives to create more resilient power grids

  • using superconducting cables, like one

  • in Chicago that uses liquid nitrogen to keep cables cool.

  • - Ultimately, the reason why people are so interested

  • in this space in terms of investment especially

  • is because unlocking a room-temperature

  • and pressure superconductor again,

  • would revolutionize medical imaging.

  • It would make it so that magnetically levitating trains

  • were more accessible, cheaper to build, more efficient.

  • It would make it so that our electrical grids

  • truly would become revolutionized.

  • - [Narrator] Because superconductors potentially

  • promise huge advances in technology,

  • finding one that can work at room-temperature

  • and ambient pressure has become a holy grail

  • for scientists and investors.

  • A group led by scientists at the University of Rochester

  • claimed to make a major breakthrough in March.

  • A superconductor made of rare-earth material combined

  • with nitrogen and hydrogen that they said worked

  • at roughly room temperature.

  • The study was peer reviewed

  • but the lead researcher has come under scrutiny.

  • The University of Rochester-led group

  • did not respond to requests for comment.

  • Then two other papers released in July

  • detailed a potential superconductor

  • called LK-99 that combined copper, lead,

  • phosphorus and oxygen

  • and worked at room temperature and ambient pressure.

  • Videos of the substance floating above a magnet,

  • a hallmark of superconductivity, circulated online.

  • But those papers, written by researchers who mostly worked

  • for the privately held Quantum Energy Research Center,

  • haven't yet been peer reviewed

  • and many scientists say LK-99 is just a magnet

  • rather than a superconducting material.

  • - Many groups had difficulty replicating the experiment.

  • - [Narrator] The Quantum Energy Research Center

  • didn't respond to requests for comment.

  • Still, the enthusiasm for the July research

  • triggered big stock swings for companies like SuNAM,

  • Mobiis and American Superconductor.

  • Before a room-temperature, ambient pressure superconductor

  • can be brought to market,

  • it needs to be replicated regularly in trials.

  • That's what Norman's group

  • at Argonne National Laboratory

  • is trying to do now with LK-99.

  • - It's gonna sort of take a while to sort out

  • what's actually going on there.

  • It opens up the space, right?

  • There's lots and lots of minerals out there,

  • very few that have been studied from a physics perspective.

  • Maybe there are other surprises out there waiting for us.

  • - [Narrator] Replicating results can take weeks or months,

  • if even possible.

  • Then its production needs to be scaled up,

  • which can take much longer.

  • - It's one thing having little microscopic samples

  • in your laboratory, it's another thing

  • to make kilometer-long wires.

  • We just don't know.

  • Until you know what the material is

  • and how easy it is to make,

  • and then it's like how can you wrap it

  • and make a wire out of it?

  • Until you know those things, it's really hard to figure out

  • what kind of lag will be from discovery to applications.

  • - [Narrator] The superconductor cable system used

  • for the power grid in Chicago took years

  • and approximately $19 million to implement.

  • - Any discovery or invention or change

  • in the field is ultimately net positive.

  • So it's almost like a nothing to lose,

  • everything to gain scenario.

  • It's not like they have spent decades researching this,

  • trying new recipes, and it has yielded no results.

  • So it's perhaps just a matter of time.

  • (pensive music)

- [Narrator] Widespread floating trains.

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超導體的突破:為何投資者如此感興趣(Superconductor Breakthroughs: Why Investors Are So Interested in Them | WSJ)

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    Kelly Lin 發佈於 2023 年 10 月 03 日
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