Related papers: Quantum Property Preservation

Quantum Property Preservation

URL: http://arxiv.org/abs/2408.11262v1
Date: Wed, 21 Aug 2024 01:06:22 GMT
Title: Quantum Property Preservation
Authors: Kumar Saurav, Daniel A. Lidar,
Abstract summary: Quantum property preservation (QPP) is the problem of maintaining a target property of a quantum system for as long as possible. Here, we develop a general theory to formalize and analyze QPP. We characterize properties encoded as scalar functions of the system state that can be preserved time-locally via continuous control using smoothly varying control Hamiltonians.
Score: 2.255961793913651
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Quantum property preservation (QPP) is the problem of maintaining a target property of a quantum system for as long as possible. This problem arises naturally in the context of open quantum systems subject to decoherence. Here, we develop a general theory to formalize and analyze QPP. We characterize properties encoded as scalar functions of the system state that can be preserved time-locally via continuous control using smoothly varying, time-dependent control Hamiltonians. The theory offers an intuitive geometric interpretation involving the level sets of the target property and the stable and unstable points related to the noise channel. We present solutions for various noise channels and target properties, which are classified as trivially controllable, uncontrollable, or controllable. In the controllable scenario, we demonstrate the existence of control Hamiltonian singularities and breakdown times, beyond which property preservation fails. QPP via Hamiltonian control is complementary to quantum error correction, as it does not require ancilla qubits or rely on measurement and feedback. It is also complementary to dynamical decoupling, since it uses only smooth Hamiltonians without pulsing and works in the regime of Markovian open system dynamics. From the perspective of control theory, this work addresses the challenge of tracking control for open quantum systems.

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