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Quantum processing with ensembles of rare-earth ions in a stoichiometric crystal

Rose L. Ahlefeldt, M. J. Pearce, Michael Hush, Matthew J. Sellars

2020Physical review. A/Physical review, A28 citationsDOIOpen Access PDF

Abstract

We describe a method for creating small quantum processors in a crystal stoichiometric in an optically active rare-earth ion. The crystal is doped with another rare earth, creating an ensemble of identical clusters of surrounding ions, whose optical and hyperfine frequencies are uniquely determined by their spatial position in the cluster. Ensembles of ions in each unique position around the dopant serve as qubits, with strong local interactions between ions in different qubits. These ensemble qubits can each be used as a quantum memory for light, and we show how the interactions between qubits can be used to perform linear operations on the stored photonic state. We also describe how these ensemble qubits can be used to enact, and study, error correction.

Topics & Concepts

QubitCluster stateHyperfine structureIonQuantum computerPhysicsCrystal (programming language)Trapped ion quantum computerCluster (spacecraft)QuantumSuperconducting quantum computingAtomic physicsQuantum mechanicsComputer scienceQuantum error correctionProgramming languageQuantum optics and atomic interactionsQuantum Information and CryptographyLaser-Matter Interactions and Applications
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