Physical Review Research (Sep 2022)

Datta-Das transistor for atomtronic circuits using artificial gauge fields

  • Chetan Sriram Madasu,
  • Mehedi Hasan,
  • Ketan Damji Rathod,
  • Chang Chi Kwong,
  • David Wilkowski

DOI
https://doi.org/10.1103/PhysRevResearch.4.033180
Journal volume & issue
Vol. 4, no. 3
p. 033180

Abstract

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Spin-dependent electrical injection has found useful applications in storage devices, but fully operational spin-dependent semiconductor electronics remain a challenging task because of weak spin-orbit couplings and/or strong spin relaxations. These limitations are lifted considering atoms instead of electrons or holes as spin carriers. In this emerging field of atomtronics, we demonstrate the equivalent of a Datta-Das transistor using a degenerate Fermi gas of strontium atoms as spin carriers in interaction with a tripod laser-beams scheme. We explore the dependence of spin rotation, and we identify two key control parameters which we interpret as equivalent to the gate-source and drain-source voltages of a field effect transistor. Our finding broadens the spectrum of atomtronics devices for implementation of operational spin-sensitive circuits.