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Controlling the uncontrollable: Quantum control of open-system dynamics

Shimshon Kallush, Roie Dann, Ronnie Kosloff

2022Science Advances32 citationsDOIOpen Access PDF

Abstract

Control of open quantum systems is essential for the realization of contemporary quantum science and technology. We demonstrate such control using a thermodynamically consistent framework, taking into account the fact that the drive can modify the system's interaction with the environment. Such an effect is incorporated within the dynamical equation, leading to control-dependent dissipation. This relation serves as the key element for open-system control. The control paradigm is displayed by analyzing entropy-changing state-to-state transformations, such as heating and cooling. The difficult task of controlling quantum gates is achieved for nonunitary reset maps with complete memory loss. In addition, we identify a mechanism for controlling unitary gates by actively removing entropy from the system to the environment. We demonstrate a universal set of single- and double-qubit unitary gates under dissipation.

Topics & Concepts

Dynamics (music)Control (management)QuantumComputer scienceControl theory (sociology)PhysicsArtificial intelligenceQuantum mechanicsAcousticsQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
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