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An atomic-scale multi-qubit platform

Yu Wang, Yi Chen, Hong Thi Bui, Christoph Wolf, Masahiro Haze, Cristina Mier, Jin‐Kyung Kim, Deung-Jang Choi, Christopher P. Lutz, Yujeong Bae, Soo‐hyon Phark, Andreas J. Heinrich

2023Science69 citationsDOI

Abstract

Individual electron spins in solids are promising candidates for quantum science and technology, where bottom-up assembly of a quantum device with atomically precise couplings has long been envisioned. Here, we realized atom-by-atom construction, coherent operations, and readout of coupled electron-spin qubits using a scanning tunneling microscope. To enable the coherent control of "remote" qubits that are outside of the tunnel junction, we complemented each electron spin with a local magnetic field gradient from a nearby single-atom magnet. Readout was achieved by using a sensor qubit in the tunnel junction and implementing pulsed double electron spin resonance. Fast single-, two-, and three-qubit operations were thereby demonstrated in an all-electrical fashion. Our angstrom-scale qubit platform may enable quantum functionalities using electron spin arrays built atom by atom on a surface.

Topics & Concepts

QubitFlux qubitSpinsPhase qubitScanning tunneling microscopePhysicsSpin (aerodynamics)Atom (system on chip)Coherent controlQuantum computerQuantum tunnellingQuantum sensorElectronCharge qubitSpin engineeringQuantumCondensed matter physicsQuantum mechanicsQuantum simulatorSpin polarizationComputer scienceThermodynamicsEmbedded systemQuantum and electron transport phenomenaElectronic and Structural Properties of OxidesMolecular Junctions and Nanostructures
An atomic-scale multi-qubit platform | Litcius