TYPE | Condensed Matter Seminar |
Speaker: | Tobias Holder |
Affiliation: | Weizmann Institute of Science |
Organizer: | Anna Keselman |
Date: | 22.11.2022 |
Time: | 14:30 |
Location: | Lidow Nathan Rosen (300) |
Abstract: | Electron hydrodynamics, which is the viscous flow of current in mesoscopic high-mobility devices, has become a valuable tool in characterizing quantum materials, and can be used to (re)create a number of hydrodynamic phenomena. However, the formation of a whirlpool - arguably the most striking hydrodynamic phenomenon - has so far been elusive.
I discuss recent results on ultrapure, thin WTe2 flakes in which it is for the first time possible to directly observe hydrodynamic vortices using spatially resolved current-imaging techniques. From a theory perspective, this observation is rather challenging: Both from the measured bulk mean free path and from ab-initio calculations, one would instead expect ballistic transport, and not hydrodynamic flow. Here, I show how this discrepancy can be resolved in a kinetic theory that incorporates weak surface scattering from the top and bottom surfaces, thereby leading to a novel para-hydrodynamic regime where ballistic and hydrodynamic mechanisms coexist. Surprisingly, our findings imply that para-hydrodynamic transport appears generically in ultraclean devices. |