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Preparation and verification of tensor network states

Esther Cruz, F. Baccari, Jordi Tura, Norbert Schuch, J. I. Cirac

2022Physical Review Research13 citationsDOIOpen Access PDF

Abstract

We consider a family of tensor network states defined on regular lattices that come with a natural definition of an adiabatic path to prepare them. This family comprises relevant classes of states, such as injective matrix product and projected entangled-pair states, and some corresponding to classical spin models. We show how uniform lower bounds to the gap of the parent Hamiltonian along the adiabatic trajectory can be efficiently computed using semidefinite programming. This allows one to check whether the adiabatic preparation can be performed efficiently with a scalable effort. We also derive a set of observables whose expectation values can be easily determined and that form a complete set, in the sense that they uniquely characterize the state. We identify a subset of those observables which can be efficiently computed if one has access to the quantum state and local measurements, and analyze how they can be used in verification procedures.

Topics & Concepts

ObservableAdiabatic processInjective functionTensor productHamiltonian (control theory)State (computer science)MathematicsAdiabatic quantum computationTopology (electrical circuits)Computer scienceStatistical physicsQuantumDiscrete mathematicsAlgorithmPhysicsQuantum computerQuantum mechanicsPure mathematicsCombinatoricsMathematical optimizationQuantum Computing Algorithms and ArchitectureQuantum many-body systemsQuantum Information and Cryptography
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