Nice physics, but not so sure about the electronic device. The minimum 2 terminal (contact) resistance of the topological FET is h/2e^2 = 12.9 kOhms corresponding to the two propagating modes. The allowed R_external from 2015 ITRS is ~200 Ohms/micron channel width. Low power drive current targets are ~1.5 mA/micron. 1D edge channels are not going to do the job for a FET. But gate controllable topology is very interesting.
"Topological degrees of dynamical freedom as a function of space-time manifold, less that, you land in discontinueties and non smoothness which is topologically doomed
Thank you so much for this technical but also very approachable way of explaining!
What an incredible talk! Thank you!
Thanks for sharing this awesome Colloquium!
Nice physics, but not so sure about the electronic device. The minimum 2 terminal (contact) resistance of the topological FET is h/2e^2 = 12.9 kOhms corresponding to the two propagating modes. The allowed R_external from 2015 ITRS is ~200 Ohms/micron channel width. Low power drive current targets are ~1.5 mA/micron. 1D edge channels are not going to do the job for a FET. But gate controllable topology is very interesting.
7 years huh? I found this video just in time then.
Excellent talk!
Very helpful
"Topological degrees of dynamical freedom as a function of space-time manifold, less that, you land in discontinueties and non smoothness which is topologically doomed
Amazing talk!
Mind = melted + spun squared
His wife calls him my Fuhere :p
nice
If you have nothing to say, please, shut the fuck up
uhh ....umm.....uhhh
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OK I'll bite and play stupid!!! HEIL . THAT'S AS BAD AS A FAMILY I ONCE KNEW NAME OF EICHMANN, AND IN AMERICA. AND THEY WERE GERMANS!!!😈😈😈????????????
nice....can you send me this presentation on my gmail account plzzz
yes
Yes, I’ll send it right up your keister
Wonderful talk!
If you have nothing to say, please save us from your waste shit