An ion-implanted silicon single-electron transistor

Abstract

We report on the fabrication and electrical characterization at millikelvin temperatures of a novel silicon single-electron transistor (Si-SET). The island and source-drain leads of the Si-SET are formed by the implantation of phosphorus ions to a density above the metal-insulator-transition, with the tunnel junctions created by undoped regions. Surface gates above each of the tunnel junctions independently control the tunnel coupling between the Si-SET island and leads. The device shows periodic Coulomb blockade with a charging energy e2/2C 250 μeV, and demonstrates a reproducible and controllable pathway to a silicon-based SET using CMOS processing techniques.

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