Single-Shot Readout of Multiple Donor Electron Spins with a Gate-Based Sensor

Autor: M.R. Hogg, P. Pakkiam, S.K. Gorman, A.V. Timofeev, Y. Chung, G.K. Gulati, M.G. House, M.Y. Simmons
Jazyk: angličtina
Rok vydání: 2023
Předmět:
Zdroj: PRX Quantum, Vol 4, Iss 1, p 010319 (2023)
Druh dokumentu: article
ISSN: 2691-3399
DOI: 10.1103/PRXQuantum.4.010319
Popis: Proposals for large-scale semiconductor spin-based quantum computers require high-fidelity single-shot qubit readout to perform error correction and read out qubit registers at the end of a computation. However, as devices scale to larger qubit numbers integrating readout sensors into densely packed qubit chips is a critical challenge. Two promising approaches are minimizing the footprint of the sensors, and extending the range of each sensor to read more qubits. Here we show high-fidelity single-shot electron spin readout using a nanoscale single-lead quantum dot (SLQD) sensor that is both compact and capable of reading multiple qubits. Our gate-based SLQD sensor is deployed in an all-epitaxial silicon donor spin-qubit device, and we demonstrate single-shot readout of three ^{31}P donor quantum dot electron spins with a maximum fidelity of 95%. Importantly, in our device the quantum dot confinement potentials are provided inherently by the donors, removing the need for additional metallic confinement gates and resulting in strong capacitive interactions between sensor and donor quantum dots. Our results are consistent with a 1/d^{1.4} scaling of the capacitive coupling between sensor and ^{31}P dots (where d is the sensor-dot distance), compared to 1/d^{2.5−3.0} in gate-defined quantum dot devices. Due to the small qubit size and strong capacitive interactions in all-epitaxial donor devices, we estimate a single sensor can achieve single-shot readout of approximately 15 qubits in a linear array, compared to 3–4 qubits for a similar sensor in a gate-defined quantum dot device. Our results highlight the potential for spin-qubit devices with significantly reduced sensor densities.
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