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Conditional quantum operation of two exchange-coupled single-donor spin qubits in a MOS-compatible silicon device

Mateusz T. Ma̧dzik, Arne Laucht, Fay E. Hudson, Alexander M. Jakob, Brett C. Johnson, David N. Jamieson, Kohei M. Itoh, Andrew S. Dzurak, Andrea Morello

2021Nature Communications47 citationsDOIOpen Access PDF

Abstract

Abstract Silicon nanoelectronic devices can host single-qubit quantum logic operations with fidelity better than 99.9%. For the spins of an electron bound to a single-donor atom, introduced in the silicon by ion implantation, the quantum information can be stored for nearly 1 second. However, manufacturing a scalable quantum processor with this method is considered challenging, because of the exponential sensitivity of the exchange interaction that mediates the coupling between the qubits. Here we demonstrate the conditional, coherent control of an electron spin qubit in an exchange-coupled pair of 31 P donors implanted in silicon. The coupling strength, J = 32.06 ± 0.06 MHz, is measured spectroscopically with high precision. Since the coupling is weaker than the electron-nuclear hyperfine coupling A ≈ 90 MHz which detunes the two electrons, a native two-qubit controlled-rotation gate can be obtained via a simple electron spin resonance pulse. This scheme is insensitive to the precise value of J , which makes it suitable for the scale-up of donor-based quantum computers in silicon that exploit the metal-oxide-semiconductor fabrication protocols commonly used in the classical electronics industry.

Topics & Concepts

QubitQuantum computerPhysicsSpinsSpin (aerodynamics)Coupling (piping)Quantum informationQuantum gateQuantumQuantum mechanicsQuantum logicOptoelectronicsSiliconQuantum technologyQuantum dotElectronQuantum error correctionControlled NOT gateScalabilityQuantum networkElectron paramagnetic resonanceTopology (electrical circuits)Resonance (particle physics)Quantum channelHyperfine structureQuantum circuitQuantum entanglementTrapped ion quantum computerSuperconducting quantum computingExchange interactionHigh fidelityCoupling constantQuantum and electron transport phenomenaMechanical and Optical ResonatorsElectron Spin Resonance Studies
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