"a metallic material called θ-phase tantalum nitride"
> In the form of tantalum nitride that Hu and his colleagues studied, the atomic structure of the crystal lattice lets phonons travel unusually long distances with minimal interference.
Sort of like a thermal (phonon) superconductor.. Maybe there's a true thermal superconductor out there to be discovered...
"Maybe there's a true thermal superconductor out there to be discovered..."
it's called a vacume, and honestly I believe that for heat, thats it, given it's role in physics....
Vacuum? It’s a terrible conductor. Closer to a perfect insulator.
It's a perfect conductor of infrared radiation which is how we cool space stations without ambient air to remove the heat via convection.
Indeed. But radiative cooling in vacuum is much slower than conductive cooling per unit surface area (even just in air at sea level on earth, air being a fairly poor conductor) unless you manage to concentrate the heat in your radiator at a massive temperature that most materials can’t withstand.
And conductive heat transfer is what’s being measured in the context of this article.