Quantized critical supercurrent in SrTiO3-based quantum point contacts.

@article{Mikheev2021QuantizedCS,
  title={Quantized critical supercurrent in SrTiO3-based quantum point contacts.},
  author={Evgeny Mikheev and Ilan T Rosen and David Goldhaber-Gordon},
  journal={Science advances},
  year={2021},
  volume={7 40},
  pages={
          eabi6520
        }
}
[Figure: see text]. 
Clean ballistic quantum point contact in SrTiO$_3$
Evgeny Mikheev, 2 Ilan T. Rosen, 2 Marc A. Kastner, 2, 4 and David Goldhaber-Gordon 2 Department of Physics, Stanford University, Stanford, CA 94305, USA Stanford Institute for Materials and Energy
Direct visualization of electronic transport in a quantum anomalous Hall insulator
A quantum anomalous Hall (QAH) insulator is characterized by quantized Hall and vanishing longitudinal resistances at zero magnetic field that are protected against local perturbations and
Electrostatic Field-Driven Supercurrent Suppression in Ionic-Gated Metallic Superconducting Nanotransistors.
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This work provides conclusive evidence for the electrostatic-field-driven control of the supercurrent in metallic nanosized superconductors, by realizing ionic-gated superconducting field-effect nanotransistors (ISFETs) where electron injection is impossible.
Ionic liquid gating of SrTiO$_3$ lamellas fabricated with a focused ion beam
Evgeny Mikheev, 2 Tino Zimmerling, Amelia Estry, 3 Philip J. W. Moll, 3 and David Goldhaber-Gordon 2 Department of Physics, Stanford University, Stanford, CA, 94305, USA Stanford Institute for

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