Litcius/Paper detail

A randomized measurement toolbox for an interacting Rydberg-atom quantum simulator

Simone Notarnicola, Andreas Elben, Thierry Lahaye, Antoine Browaeys, Simone Montangero, Benoît Vermersch

2023New Journal of Physics21 citationsDOIOpen Access PDF

Abstract

Abstract We present a toolbox to probe quantum many-body states implemented on Rydberg-atoms quantum hardware via randomized measurements. We illustrate the efficacy of this measurement toolbox in the context of probing entanglement, via the estimation of the purity, and of verifying a ground-state preparation using measurements of the Hamiltonian variance. To achieve this goal, we develop and discuss in detail a protocol to realize independent, local unitary rotations. We benchmark the protocol by investigating the ground state of the one-dimensional Su–Schrieffer–Heeger model, recently realized on a chain of Rydberg atom, and the state resulting after a sudden quench in a staggered XY chain. We probe the robustness of our toolbox by taking into account experimental imperfections, such as pulse fluctuations and measurement errors.

Topics & Concepts

PhysicsToolboxRydberg formulaRydberg atomQuantum entanglementRobustness (evolution)Hamiltonian (control theory)QuantumQuantum simulatorBenchmark (surveying)Quantum mechanicsStatistical physicsQuantum computerComputer scienceChemistryMathematicsGeographyIonizationMathematical optimizationGeneBiochemistryIonProgramming languageGeodesyQuantum Information and CryptographyQuantum many-body systemsQuantum Computing Algorithms and Architecture