Superconductor Breakthrough Replicated, Twice, in Preliminary Testing::It’s been a rough few days in the condensed matter physics realm following claims of the world’s first room-temperature superconductor being achieved. However, work to verify and replicate the results

  • surfrock66@lemmy.world
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    1 year ago

    I am not a scientist but I have really been trying to understand this breakthrough. My understanding is not that room temperature ambient pressure semiconductors have been created. It is that several simulations back up parts of the discovery that would lead to said semiconductors, in some reviews are showing that some of the crystalline structures do successfully resemble what would be needed for superconductivity in super preliminary experiments on a tiny scale. We aren’t going to have magic superconducting wire yet, this is still very much in the theoretical material science phase. Ultimately, specifics around the way the doping has to work are pretty unproven. At this point it looks like things like electron photon interaction is happening as it would need to happen on a scale relevant to similar crystalline structures. LK99 isn’t yet in physical testing in any other labs yet, and any labs that would publish results already wouldn’t be worth listening to because there hasn’t been enough time for peer review.

    • rambaroo@lemmy.world
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      1 year ago

      No. At least once lab has actually synthesized the material and verified its superconductivity. It is not just simulations.

      • surfrock66@lemmy.world
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        1 year ago

        A lab in China synthesized a flake of material that behaves the way a superconductor might under a strong magnet, and a separate lab in China made a flake which showed high resistivity. Neither of those qualify for full validation and point to the fact that synthesis has a lot of unknowns that will require more precise doping methods than we have today. This is likely the start of a research path into doped crystals, a path on which a future discovery WILL lead to better conductors that are easy to make.