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Small, Highly Accurate Quantum Processor for Intermediate-Depth Quantum Simulations

Nathan Lysne, Kevin W. Kuper, Pablo M. Poggi, Ivan Deutsch, Poul Jessen

2020Physical Review Letters32 citationsDOIOpen Access PDF

Abstract

Analog quantum simulation is widely considered a step on the path to fault tolerant quantum computation. With current noisy hardware, the accuracy of an analog simulator will degrade after just a few time steps, especially when simulating complex systems likely to exhibit quantum chaos. Here we describe a quantum simulator based on the combined electron-nuclear spins of individual Cs atoms, and its use to run high fidelity simulations of three different model Hamiltonians for >100 time steps. While not scalable to exponentially large Hilbert spaces, it provides the accuracy and programmability required to explore the interplay between dynamics, imperfections, and accuracy in quantum simulation.

Topics & Concepts

Quantum simulatorComputer scienceQuantum computerQuantumQuantum error correctionSpinsFidelityQuantum algorithmScalabilityComputationComputational sciencePhysicsStatistical physicsQuantum mechanicsAlgorithmTelecommunicationsDatabaseCondensed matter physicsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum and electron transport phenomena
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