KTaO3-Based Supercurrent Diode
Posted by PaulHoule 5 days ago
Comments
Comment by dr_coffee 1 day ago
Richard Feynman’s 1959 lecture “There’s plenty of room at the bottom” envisioned atomic pick and place to build complex nanoscale machines. The lecture is often considered the conceptual birth of nanotechnology.
I am sure this is not the first time conductive AFM has been used to achieve nanoscale patterning to build a useful piece of tech, but very cool nonetheless.
Comment by boznz 1 day ago
"Supercurrent" to me implied a diode which could conduct large amps without the normal losses involved from the forward voltage drop; what this is actually referring to is the opposite end of the spectrum, a highly efficient, room temperature single photon emitter, I assume for photonic based computing.
Comment by kazinator 1 day ago
Intertesting. Tantalum is already used in electronics for capacitors (Ta2O5 or something like that).
Comment by zamalek 1 day ago
Only when required, though. It's a conflict resource (which tends to make it more expensive).
Same would apply here, but the paper talks about moving molecules around so maybe quantity would eliminate the issue.
Comment by addaon 23 hours ago
Yeah. $1000+ for a single tantalum hybrid cap [1] is a bit much, but for some applications there’s no real alternative.
[1] https://www.digikey.com/en/products/detail/quantic-evans/TDD...