posted on 2023-08-10, 18:07authored byAranya Goswami, Sanchayeta R. Mudi, Connor Dempsey, Po Zhang, Hao Wu, Bomin Zhang, William J. Mitchell, Joon Sue Lee, Sergey M. Frolov, Christopher J. Palmstrøm
Superconductor–semiconductor
nanowire hybrid structures
are useful in fabricating devices for quantum information processing.
While selective area growth (SAG) offers the flexibility to grow semiconductor
nanowires in arbitrary geometries, in situ evaporation of superconductors
ensures pristine superconductor–semiconductor interfaces, resulting
in strong induced superconductivity in the semiconducting nanowire.
In this work, we used high-aspect-ratio SiOx dielectric walls to in situ evaporate islands of superconductor
tin on in-plane InAs SAG nanowires. Our technique enables customization
in the designs of such hybrid nanostructures, while simultaneously
performing the nanowire and superconductor growth without breaking
vacuum. Using this technique, we grew super(S)-normal(N)-super(S),
NS, and SNSNS junctions. We performed cryogenic electron transport
measurements revealing the presence of gate and field tunable supercurrents.
We further measured the superconducting gap and critical fields in
the hybrid nanostructures and the crossover from 2e to 1e periodicity
in the SNSNS junctions as a proof of the usability of these hybrid
nanostructures.