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Single-electron operations in a foundry-fabricated array of quantum dots

Fabio Ansaloni, Anasua Chatterjee, Heorhii Bohuslavskyi, Benoît Bertrand, Louis Hutin, M. Vinet, Ferdinand Kuemmeth

2020Nature Communications90 citationsDOIOpen Access PDF

Abstract

Silicon quantum dots are attractive for the implementation of large spin-based quantum processors in part due to prospects of industrial foundry fabrication. However, the large effective mass associated with electrons in silicon traditionally limits single-electron operations to devices fabricated in customized academic clean rooms. Here, we demonstrate single-electron occupations in all four quantum dots of a 2 x 2 split-gate silicon device fabricated entirely by 300-mm-wafer foundry processes. By applying gate-voltage pulses while performing high-frequency reflectometry off one gate electrode, we perform single-electron operations within the array that demonstrate single-shot detection of electron tunneling and an overall adjustability of tunneling times by a global top gate electrode. Lastly, we use the two-dimensional aspect of the quantum dot array to exchange two electrons by spatial permutation, which may find applications in permutation-based quantum algorithms.

Topics & Concepts

Quantum dotFoundryElectronNanotechnologyComputer sciencePhysicsOptoelectronicsMaterials scienceQuantum mechanicsMetallurgyQuantum and electron transport phenomenaSemiconductor materials and devicesAdvancements in Semiconductor Devices and Circuit Design
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