In this preprint, the authors synthesize samples based on the claimed room temperature superconductor LK-99, and observe half-levitation similar to that seen in other recent videos, which has been ascribed to the Meissner Effect (a signature of superconductivity).

However, they performed a careful magnetization measurement and found that the sample is ferromagnetic. They also did a resistance measurement on a larger sample, and found that the majority of the material is a semiconductor. This points to a simpler explanation for the half-levitation phenomenon: it is a consequence of ferromagnetism (+ mechanical effects due to friction and sample shape), rather than the Meissner Effect.

Unless someone can demonstrate full levitation or better resistivity data for LK-99, this is arguably fatal for the claims of room temperature superconductivity.

  • expatriado@lemmy.world
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    1 year ago

    i decided not to get excited until replicated experiments by third parties were done, it was too good to be true

    • gibmiser@lemmy.world
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      1 year ago

      I know better and still got excited.

      I know we need to fix our problems as a society, but damn that technology hopium really gets me going.

      In unrelated news, did you see the fusion news! We did it! Net positive energy! Fusion will be in our toasters in a few short years!

      • 6mementomori@lemmy.world
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        1 year ago

        i hate to break it to you, but net positive isn’t exact here. the “energy in” used to calculate it is the energy of the actual photons, but to actually fire those lasers, you need 100 times the energy, so it’s a net 1%

        • TonyTonyChopper@mander.xyz
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          1 year ago

          The fusion definition of “net positive” has always been heavily inflated so that investors and governments will actually put money into these dreams

      • cyd@lemmy.worldOP
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        1 year ago

        In unrelated news, did you see the fusion news! We did it! Net positive energy! Fusion will be in our toasters in a few short years!

        Now they simply have to figure out how to get that super-powerful laser, which can fire only once a day, to firing once every milisecond ;-)

        • quicksand@lemm.ee
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          1 year ago

          Do you have more information on said laser? I work on lasers that I would consider quite powerful and they fire at 6 kHz, soon to be 8 on the next model. I’d like to compare the specs

          • cyd@lemmy.worldOP
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            1 year ago

            The National Ignition Facility has an explainer here. Typically, these facilities operate at petawatt peak powers by using lots and lots of pulse amplifiers. From what I heard, after every shot, the staff have to comb through the facility making sure things are still working, replacing blown out components, etc…

        • jpeps@lemmy.world
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          1 year ago

          You may know more than me on this, but I believe multiple fires per day are possible now. Besides, tokamak reactors show more promise.

  • ChrisLicht@lemm.ee
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    1 year ago

    I tapped out after high school physics and college organic chem, so have almost zero understanding of what’s at work here, but why wouldn’t the original authors have thought to test for ferromagnetism?