Physical Review Research (Oct 2023)

Long distance electron-electron scattering detected with point contacts

  • Lev V. Ginzburg,
  • Yuze Wu,
  • Marc P. Röösli,
  • Pedro Rosso Gomez,
  • Rebekka Garreis,
  • Chuyao Tong,
  • Veronika Stará,
  • Carolin Gold,
  • Khachatur Nazaryan,
  • Serhii Kryhin,
  • Hiske Overweg,
  • Christian Reichl,
  • Matthias Berl,
  • Takashi Taniguchi,
  • Kenji Watanabe,
  • Werner Wegscheider,
  • Thomas Ihn,
  • Klaus Ensslin

DOI
https://doi.org/10.1103/PhysRevResearch.5.043088
Journal volume & issue
Vol. 5, no. 4
p. 043088

Abstract

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We measure electron transport through point contacts in an electron gas in AlGaAs/GaAs heterostructures and graphene for a range of temperatures, magnetic fields, and electron densities. We find a magnetoconductance peak around B=0. With increasing temperature, the width of the peak increases monotonically, while its amplitude first increases and then decreases. For GaAs point contacts the peak is particularly sharp at relatively low temperatures T≈1.5K: the curve rounds on a scale of a few tens of microteslas, hinting at length scales of several millimeters for the corresponding scattering processes. We propose a model based on the transition between different transport regimes with increasing temperature: from ballistic transport to few electron-electron scatterings to hydrodynamic superballistic flow to hydrodynamic Poiseuille-like flow. The model is in qualitative and, in many cases, quantitative agreement with the experimental observations.