"Scientists may have...that ability could...early experiments suggest...if verified, it could..."
I have become jaded with publications that hedge like this. In my experience most of these discoveries never pan out, they just disappear. And not being in the field myself, I don't know how to judge.
Does anyone in quantum computing have a read on how big a deal this is (or isn't)?
The gap between the laboratory and the factory is big. A technology usually requires a ton of refinement before it's ready for mass adoption. EVs are a good example.
You should read them as publicity to convince stupid politicians to continue to fund basic research when they are more inclined to go for tax cuts for billionaires. Annoying, but a necessary evil.
The manuscript has been out since October 2025, and back then it didn't make so much noise. Looks like solid work, but more muted in tone than this press release. https://arxiv.org/abs/2510.08110
The limiting factor for quantum computers is keeping them cold. Is this triple superconductor high temperature too? If not, it's not going to change things much.
I did a bunch of research on similar Tc superconductors back during my
PhD.
7K is considered “warm” from a cryogenics point-of-view because you can just dunk your sample into a dewar of liquid helium at 4.2K. You can even get it cooler, down to about 1K, using evaporative cooling techniques. [1]
It’s getting to lower temperatures than this when things start getting complicated. Eg a closed-cycle evaporative He3 system can get you down to 200 mK, or you can bite the bullet and use a dilution fridge down to around 10mK.
I have become jaded with publications that hedge like this. In my experience most of these discoveries never pan out, they just disappear. And not being in the field myself, I don't know how to judge.
Does anyone in quantum computing have a read on how big a deal this is (or isn't)?
7K is considered “warm” from a cryogenics point-of-view because you can just dunk your sample into a dewar of liquid helium at 4.2K. You can even get it cooler, down to about 1K, using evaporative cooling techniques. [1]
It’s getting to lower temperatures than this when things start getting complicated. Eg a closed-cycle evaporative He3 system can get you down to 200 mK, or you can bite the bullet and use a dilution fridge down to around 10mK.
[1] https://en.wikipedia.org/wiki/1-K_pot
(There are probably a lot of other nasty details, but less than 4K is harder.)