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Quantum control in open and periodically driven systems

Si‐Yuan Bai, Chong Chen, Hong Wu, Jun‐Hong An

2021Advances in Physics X19 citationsDOIOpen Access PDF

Abstract

Quantum technology resorts to efficient utilization of quantum resources to realize technique innovation. The systems are controlled such that their states follow the desired manners to realize different quantum protocols. However, the decoherence caused by the system-environment interactions causes the states deviating from the desired manners. How to protect quantum resources under the coexistence of active control and passive decoherence is of significance. Recent studies have revealed that the decoherence is determined by the feature of the system-environment energy spectrum: Accompanying the formation of bound states in the energy spectrum, the decoherence can be suppressed. It supplies a guideline to control decoherence. Such idea can be generalized to systems under periodic driving. By virtue of manipulating Floquet bound states in the quasienergy spectrum, coherent control via periodic driving dubbed as Floquet engineering has become a versatile tool not only in controlling decoherence, but also in artificially synthesizing exotic topological phases. We will review the progress on quantum control in open and periodically driven systems. Special attention will be paid to the distinguished role played by the bound states and their controllability via periodic driving in suppressing decoherence and generating novel topological phases.

Topics & Concepts

Quantum decoherenceControllabilityFloquet theoryQuantumDecoherence-free subspacesTopology (electrical circuits)Quantum systemQuantum dissipationPhysicsBound stateOpen quantum systemQuantum mechanicsComputer scienceQuantum error correctionMathematicsEngineeringElectrical engineeringApplied mathematicsNonlinear systemMechanical and Optical ResonatorsQuantum Information and CryptographyQuantum and electron transport phenomena