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Single charge transport in a fully superconducting SQUISET locally tuned by self-inductance effects

We present a single-electron device for the manipulation of charge states via quantum interference in nanostructured electrodes. Via self-inductance effects, we induce two independent magnetic fluxes in the electrodes and we demonstrate sensitivity to single charge states and magnetic field at variable temperature. Moreover, our approach allows us to demonstrate local and independent control of the single-particle conductance between nano-engineered tunnel junctions in a fully-Superconducting Quantum Interference Single-Electron Transistor (SQUISET), thereby increasing the flexibility of our single-electron transistors. Our devices show a robust modulation of the current-to-flux transfer function via control currents, while exploiting the single-electron filling of a mesoscopic superconducting island. Further applications of the device concept to single-charge manipulation and magnetic-flux sensing are also discussed.

preprint2022arXivOpen access
Emanuele EnricoLuca CroinElia StrambiniFrancesco Giazotto
cond-mat.supr-con
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Open access4 authors1 topic
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Emanuele EnricoLuca CroinElia StrambiniFrancesco Giazotto

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