Silicon-Aluminum Phase-Transformation-Induced Superconducting Rings.
Brett C JohnsonMichael StuiberDaniel L CreedonManjith BoseAmanuel BerhaneLaurens Henry Willems van BeverenSergey RubanovJared H ColeVincent MourikAlexander R HamiltonTimothy L DutyJeffrey Colin McCallumPublished in: Nano letters (2022)
The development of devices that exhibit both superconducting and semiconducting properties is an important endeavor for emerging quantum technologies. We investigate superconducting nanowires fabricated on a silicon-on-insulator (SOI) platform. Aluminum from deposited contact electrodes is found to interdiffuse with Si along the entire length of the nanowire, over micrometer length scales and at temperatures well below the Al-Si eutectic. The phase-transformed material is conformal with the predefined device patterns. The superconducting properties of a transformed mesoscopic ring formed on a SOI platform are investigated. Low-temperature magnetoresistance oscillations, quantized in units of the fluxoid, h /2 e , are observed.