Quantum information processing based on silicon-CMOS technology

In this talk I will discuss the advantages and challenges facing the development of quantum computers employing spin-based quantum processors that can be manufactured using industry-standard silicon CMOS technology. I will begin by discussing the development of SiMOS quantum dot qubits, including the demonstration of high-fidelity single-qubit gates [1], the first demonstration of two-qubit logic gate [2], and assessments of silicon qubit fidelities [3,4]. I will then explore the technical issues related to scaling a CMOS quantum processor [5] up to the millions of qubits that will be required for fault-tolerant QC, including demonstrations of silicon qubit operation above one kelvin [6] and the use of global microwave fields capable of controlling millions of qubits [7].

[1] M. Veldhorst et al., Nature Nanotechnology 9, 981 (2014).

[2] M. Veldhorst et al., Nature 526, 410 (2015).

[3] H. Yang et al., Nature Electronics 2, 151 (2019).

[4] W. Huang et al., Nature 569, 532 (2019).

[5] M. Veldhorst et al., Nature Communications 8, 1766 (2017).

[6] H. Yang et al., Nature 580, 350 (2020).

[7] Vahapoglu et al., Science Advances 7, eabg9158 (2021).