@article{ca46fbc55a1744e19a162605c3673c34,
title = "Superballistic flow of viscous electron fluid through graphene constrictions",
abstract = "Electron-electron (e-e) collisions can impact transport in a variety of surprising and sometimes counterintuitive ways. Despite strong interest, experiments on the subject proved challenging because of the simultaneous presence of different scattering mechanisms that suppress or obscure consequences of e-e scattering. Only recently, sufficiently clean electron systems with transport dominated by e-e collisions have become available, showing behaviour characteristic of highly viscous fluids. Here we study electron transport through graphene constrictions and show that their conductance below 150 K increases with increasing temperature, in stark contrast to the metallic character of doped graphene. Notably, the measured conductance exceeds the maximum conductance possible for free electrons. This anomalous behaviour is attributed to collective movement of interacting electrons, which € shields' individual carriers from momentum loss at sample boundaries. The measurements allow us to identify the conductance contribution arising due to electron viscosity and determine its temperature dependence. Besides fundamental interest, our work shows that viscous effects can facilitate high-mobility transport at elevated temperatures, a potentially useful behaviour for designing graphene-based devices.",
author = "{Krishna Kumar}, R. and Bandurin, {D. A.} and Pellegrino, {F. M.D.} and Y. Cao and A. Principi and H. Guo and Auton, {G. H.} and {Ben Shalom}, M. and Ponomarenko, {L. A.} and G. Falkovich and K. Watanabe and T. Taniguchi and Grigorieva, {I. V.} and Levitov, {L. S.} and M. Polini and Geim, {A. K.}",
year = "2017",
month = dec,
day = "1",
doi = "10.1038/nphys4240",
language = "אנגלית",
volume = "13",
pages = "1182--1185",
journal = "Nature Physics",
issn = "1745-2473",
publisher = "Nature Publishing Group",
number = "12",
}