Late night edition
https://https://www.nextbigfuture.com/2024/04/new-korean-room-temperature-superconductivity-pcposos-critical-temperature-research.html
They claim a superconducting critical temperature of 400 Kelvin, for you Centigrade fans, that's 126 degrees C, above the boiling point of water. Includes videos of production and testing.
>new
>it is literally just LK-99 but with a different name
What is this. The latest iteration of IQfyGPT?
4chinz has really fried my brain. I read the title as "Room Temperature IQ Superconductor"
I think it's time for me to take a break
>"Room Temperature IQ Superconductor"
your brain is not wrong tho
Ifcthat's still the lead based shit, then we're all fricked. It'll be worse than microplastics.
>that's 126 degrees C
>we finally have a use for cpu's and graphic card's thermal outputs
yay
superconductors do jack shit for CPUs and GPUs. they reduce the heat by basically zero, since the heat in CPUs and GPUs is not from fricking resistive losses
these must be bots
Read again you literal mongoloid
you can't possibly think this is for real
what the frick is even that, looks like that Primitive Technology dude on youtube.
also they supposedly had a thin film deposition process, whatever the frick happened to that? it was in their first paper.
Neat! I hope Sabine the Science Queen makes a video about it.
what I really want is a Hot Wheel track with this stuff so I can run little hovering vehicles down it with magnets. Just like F Zero or Wipeout. Lead's cheaper than NdFeB so it make sense to make the track from it and the more lead we can put in kid's toys the better. Too bad this isn't fricking real
>lead
kek the material is not useful in most applications around your home. has no reason to be in toys or shit like that. copper works fine. you don't need to cut your resistive losses in fricking toys, or anything else in a regular home.
rtsc is useful to cut bulk losses when delivering power to whole cities, from some power plants. things of that nature.
the lead troll is not going to work, mainly because you are too moronic to understand the applications, so you'll frick up, like you just did. you midwit
I thought it was trivially obvious that a HOVERING TOY would make use of the Meissner effect. As you know, the Meissner effect requires superconductivity.
>>cut bulk losses when delivering power to whole cities
except that our electrical grid uses Alternating Current(AC) and high temperature superconductors experience resistive losses for AC. Not to mention, producing this material at all appears to be quite difficult so applications that require minimal amounts of material are more practical(toys) than ones that require large amounts of material(power lines)
>>lead troll
I was shitposting anon. I was literally taking a hot fat shit when I posted that.
would it be theoretically possible to make a "super diamagnetic" material that isn't a superconductor (as in, this "super diamagnetism" is NOT synonymous with the Meissner effect), or does "super diamagnetism" require superconductivity?
that's bismuth. there's some levitating stuff you can do with it
I really hope this is real, the way these guys keep banging on about it only makes me more convinced that they think they got it.
Electricity isn't real, so I don't know why people are pretending to be excited about this.
The voltage below transition is still too large and that "won't prove superconductivity" meme
>Graph doesn't show zero resistance
*yawn*
it's happening
I hope this means I get more floating superconductive desk toy.