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Single-electron spin resonance in a nanoelectronic device using a global field

Ensar Vahapoglu, James P. Slack-Smith, Ross C. C. Leon, Wee Han Lim, Fay E. Hudson, Tom Day, Tuomo Tanttu, Chih Hwan Yang, Arne Laucht, Andrew S. Dzurak, Jarryd J. Pla

2021Science Advances47 citationsDOIOpen Access PDF

Abstract

Spin-based silicon quantum electronic circuits offer a scalable platform for quantum computation, combining the manufacturability of semiconductor devices with the long coherence times afforded by spins in silicon. Advancing from current few-qubit devices to silicon quantum processors with upward of a million qubits, as required for fault-tolerant operation, presents several unique challenges, one of the most demanding being the ability to deliver microwave signals for large-scale qubit control. Here, we demonstrate a potential solution to this problem by using a three-dimensional dielectric resonator to broadcast a global microwave signal across a quantum nanoelectronic circuit. Critically, this technique uses only a single microwave source and is capable of delivering control signals to millions of qubits simultaneously. We show that the global field can be used to perform spin resonance of single electrons confined in a silicon double quantum dot device, establishing the feasibility of this approach for scalable spin qubit control.

Topics & Concepts

QubitQuantum computerMicrowaveOptoelectronicsScalabilityQuantum dotPhysicsCoherence (philosophical gambling strategy)SpinsCoherence timeResonatorQuantumSpin (aerodynamics)Quantum sensorComputer scienceQuantum technologyElectronic engineeringQuantum informationSiliconNanoelectronicsSemiconductorField (mathematics)ElectronNanotechnologyTransistorElectrical engineeringSemiconductor deviceElectronic circuitMagnetic fieldSIGNAL (programming language)Materials scienceDesign for manufacturabilitySpin engineeringEngineering physicsQuantum and electron transport phenomenaMechanical and Optical ResonatorsQuantum Information and Cryptography
Single-electron spin resonance in a nanoelectronic device using a global field | Litcius