English

Superscreening by a Retroreflected Hole Backflow in Tomographic Electron Fluids

Mesoscale and Nanoscale Physics 2020-12-18 v2 Strongly Correlated Electrons

Abstract

Electron hydrodynamics gives rise to surprising correlated behaviors in which electrons "cooperate" to quench dissipation and reduce the electric fields needed to sustain the flow. Such collective "free" flows are usually expected at the hydrodynamic lengthscales exceeding the electron-electron scattering mean free path ee\ell_{\rm ee}. Here we predict that in two-dimensional electron gases the collective free flows actually occur at the distances much smaller than ee\ell_{\rm ee}, in a nominally ballistic regime. The sub-ee\ell_{\rm ee} free flows arise due to retroreflected holes originating from head-on electron electron collisions, which retrace the paths of impinging electrons and cancel out their potential. An exact solution, obtained in Corbino geometry, predicts potential strongly screened by the hole backflow. Screened potential is described by a fractional power law r5/3r^{-5/3} over a wide range of rr values, from macroscales down to deep sub-ee\ell_{\rm ee} scales, and a distinct non-Fermi-liquid temperature dependence.

Keywords

Cite

@article{arxiv.2012.03840,
  title  = {Superscreening by a Retroreflected Hole Backflow in Tomographic Electron Fluids},
  author = {Qiantan Hong and Margarita Davydova and Patrick J Ledwith and Leonid Levitov},
  journal= {arXiv preprint arXiv:2012.03840},
  year   = {2020}
}

Comments

8pgs, 1fg

R2 v1 2026-06-23T20:47:18.030Z