量子控制建模、方法和应用

Nahid Binandeh Dehaghani, F. Pereira, Antonio Pedro Aguiar
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引用次数: 6

摘要

这篇综述涉及量子控制的结果和方法,多年来,已经在涉及量子系统的各种操作中使用。这些方法中的大多数最初都是在量子物理的背景之外开发的,然后进行了调整,以考虑到各种量子物理平台的特殊性。量子控制包括设计足够的控制信号,以有效地操纵符合量子力学定律的系统,以确保相关的期望行为和性能。本文试图对各种量子控制理论及其应用进行全面而完备的介绍和回顾。它涵盖了量子控制建模、问题制定、可控性概念以及主要控制理论的选择等问题。鉴于这一领域的广泛性,我们尽了最大的努力使我们的文章尽可能简明扼要,在细节方面,我们向读者提供了大量的参考资料。回顾的内容被组织在三个主要类别的控制问题-开环控制,闭环学习控制和反馈控制-并且,对于每一个,我们都介绍了量子控制理论的主要发展。最后,考虑到量子系统固有的脆弱性,获得鲁棒性和可靠性的重要性,对量子鲁棒控制的方法也进行了探讨。
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Quantum Control Modelling, Methods, and Applications
This review concerns quantum control results and methods that, over the years, have been used in the various operations involving quantum systems. Most of these methods have been originally developed outside the context of quantum physics, and, then, adapted to take into account the specificities of the various quantum physical platforms. Quantum control consists in designing adequate control signals required to efficiently manipulate systems conforming the laws of quantum mechanics in order to ensure the associated desired behaviours and performances. This work attempts to provide a thorough and self-contained introduction and review of the various quantum control theories and their applications. It encompasses issues spanning quantum control modelling, problem formulation, concepts of controllability, as well as a selection of the main control theories. Given the vastness of the field, we tried our best to be as concise as possible, and, for the details, the reader is pointed out to a profusion of references. The contents of the review are organized in the three major classes of control problems - open-loop control, closed-loop learning control, and feedback control - and, for each one of them, we present the main developments in quantum control theory. Finally, concerning the importance of attaining robustness and reliability due to inherent fragility of quantum systems, methods for quantum robust control are also surveyed.
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