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Scalable and High-Fidelity Quantum Random Access Memory in Spin-Photon Networks

K. C. Chen, W. Dai, C. Errando-Herranz, S. Lloyd, D. Englund

2021PRX Quantum34 citationsDOIOpen Access PDF

Abstract

A quantum random access memory (qRAM) is considered an essential computing unit to enable polynomial speedups in quantum information processing. Proposed implementations include the use of neutral atoms and superconducting circuits to construct a binary tree but these systems still require demonstrations of the elementary components. Here, we propose a photonic-integrated-circuit (PIC) architecture integrated with solid-state memories as a viable platform for constructing a qRAM. We also present an alternative scheme based on quantum teleportation and extend it to the context of quantum networks. Both implementations realize the two key qRAM operations, (1) quantum state transfer and (2) quantum routing, with already demonstrated components: electro-optic modulators, a Mach-Zehnder interferometer (MZI) network, and nanocavities coupled to artificial atoms for spin-based memory writing and retrieval. Our approaches furthermore benefit from built-in error detection based on photon heralding. Detailed theoretical analysis of the qRAM efficiency and query fidelity shows that our proposal presents viable near-term designs for a general qRAM.

Topics & Concepts

Computer scienceQuantum networkTheoretical computer scienceScalabilityQuantum teleportationQuantum computerQuantum informationComputer engineeringQuantumQubitContext (archaeology)Quantum technologyQuantum error correctionQuantum channelTeleportationRandom accessKey (lock)Quantum algorithmQuantum circuitConstruct (python library)Error detection and correctionTopology (electrical circuits)Quantum information scienceBinary numberFidelityBinary decision diagramPolynomialAlgorithmImplementationQuantum Information and CryptographyQuantum optics and atomic interactionsQuantum Computing Algorithms and Architecture
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