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Optimal quantum annealing: A variational shortcut-to-adiabaticity approach

Gianluca Passarelli, Rosario Fazio, Procolo Lucignano

2022Physical review. A/Physical review, A30 citationsDOIOpen Access PDF

Abstract

Suppressing unwanted transitions out of the instantaneous ground state is a major challenge in unitary adiabatic quantum computation. A recent approach consists in building counterdiabatic potentials approximated using variational strategies. In this contribution, we extend this variational approach to Lindbladian dynamics, having as a goal the suppression of diabatic transitions between pairs of Jordan blocks in quantum annealing. We show that, surprisingly, unitary counterdiabatic Ans\"atze are successful for dissipative dynamics as well, allowing for easier experimental implementations compared to Lindbladian Ans\"atze involving dissipation. Our approach not only guarantees improvements of open-system adiabaticity but also enhances the success probability of quantum annealing.

Topics & Concepts

Quantum annealingAdiabatic processDiabaticUnitary stateDissipative systemComputationQuantumStatistical physicsAdiabatic quantum computationDissipationSimulated annealingPhysicsQuantum computerComputer scienceMathematicsQuantum mechanicsMathematical optimizationAlgorithmLawPolitical scienceQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
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