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Learning the dynamics of open quantum systems from their steady states

Eyal Bairey, Chu Guo, Dario Poletti, Netanel H Lindner, Itai Arad

2020New Journal of Physics55 citationsDOIOpen Access PDF

Abstract

Abstract Recent works have shown that generic local Hamiltonians can be efficiently inferred from local measurements performed on their eigenstates or thermal states. Realistic quantum systems are often affected by dissipation and decoherence due to coupling to an external environment. This raises the question whether the steady states of such open quantum systems contain sufficient information allowing for full and efficient reconstruction of the system’s dynamics. We find that such a reconstruction is possible for generic local Markovian dynamics. We propose a recovery method that uses only local measurements; for systems with finite-range interactions, the method recovers the Lindbladian acting on each spatial domain using only observables within that domain. We numerically study the accuracy of the reconstruction as a function of the number of measurements, type of open-system dynamics and system size. Interestingly, we show that couplings to external environments can in fact facilitate the reconstruction of Hamiltonians composed of commuting terms.

Topics & Concepts

PhysicsObservableQuantum decoherenceQuantumStatistical physicsOpen quantum systemDissipationQuantum systemCoupling (piping)Quantum dynamicsEigenvalues and eigenvectorsFunction (biology)Classical mechanicsDomain (mathematical analysis)Markov processDynamics (music)Quantum dissipationOpen system (computing)Quantum informationThermalQuantum mechanicsDecoherence-free subspacesQuantum processTheoretical physicsSystem dynamicsQuantum stateQuantum error correctionBounded functionTopology (electrical circuits)Quantum operationQuantum computerTime evolutionQuantum many-body systemsSpectroscopy and Quantum Chemical StudiesQuantum Information and Cryptography
Learning the dynamics of open quantum systems from their steady states | Litcius