Litcius/Paper detail

Enhanced Estimation of Quantum Properties with Common Randomized Measurements

Benoît Vermersch, Aniket Rath, Bharathan Sundar, Cyril Branciard, John Preskill, Andreas Elben

2024PRX Quantum15 citationsDOIOpen Access PDF

Abstract

We present a technique for enhancing the estimation of quantum state properties by incorporating approximate prior knowledge about the quantum state. This consists in performing randomized measurements on a quantum processor and comparing the results with those obtained from a classical computer that stores an approximation of the quantum state. We provide unbiased estimators for expectation values of multicopy observables and present performance guarantees in terms of variance bounds that depend on the prior knowledge accuracy. We demonstrate the effectiveness of our approach through experimental and numerical examples detecting mixed-state entanglement, and estimating polynomial approximations of the von Neumann entropy and state fidelities. Published by the American Physical Society 2024

Topics & Concepts

EstimatorVon Neumann entropyObservableQuantumVon Neumann architectureVariance (accounting)Quantum phase estimation algorithmQuantum stateMathematicsEntropy (arrow of time)Quantum algorithmComputer scienceState (computer science)AlgorithmApplied mathematicsStatistical physicsStatisticsQuantum mechanicsQuantum error correctionQuantum entanglementPhysicsPure mathematicsBusinessAccountingQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyNeural Networks and Reservoir Computing