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Coherent spin qubit transport in silicon

J. Yoneda, W. Huang, M. Feng, C. H. Yang, K. W. Chan, T. Tanttu, W. Gilbert, R. C. C. Leon, F. E. Hudson, K. M. Itoh, A. Morello, S. D. Bartlett, A. Laucht, A. Saraiva, A. S. Dzurak

2021Nature Communications109 citationsDOIOpen Access PDF

Abstract

A fault-tolerant quantum processor may be configured using stationary qubits interacting only with their nearest neighbours, but at the cost of significant overheads in physical qubits per logical qubit. Such overheads could be reduced by coherently transporting qubits across the chip, allowing connectivity beyond immediate neighbours. Here we demonstrate high-fidelity coherent transport of an electron spin qubit between quantum dots in isotopically-enriched silicon. We observe qubit precession in the inter-site tunnelling regime and assess the impact of qubit transport using Ramsey interferometry and quantum state tomography techniques. We report a polarization transfer fidelity of 99.97% and an average coherent transfer fidelity of 99.4%. Our results provide key elements for high-fidelity, on-chip quantum information distribution, as long envisaged, reinforcing the scaling prospects of silicon-based spin qubits.

Topics & Concepts

QubitPhysicsFlux qubitPhase qubitQuantum mechanicsQuantum tunnellingQuantum computerCharge qubitSpin (aerodynamics)Quantum informationQuantumCoherent statesQuantum sensorInterferometryFidelityScalingQuantum technologyQuantum decoherenceQuantum error correctionCoherent controlQuantum entanglementSuperconducting quantum computingQuantum dotQuantum metrologyHigh fidelityQuantum teleportationEntanglement distillationQuantum tomographyQuantum stateTrapped ion quantum computerSpin engineeringQuantum and electron transport phenomenaAdvancements in Semiconductor Devices and Circuit DesignTopological Materials and Phenomena
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