Quantum feedback networks and control: A brief survey

Guo Feng Zhang; Matthew R. James

doi:10.1007/s11434-012-5199-7

Quantum feedback networks and control: A brief survey

Guo Feng Zhang, Matthew R. James

Research output: Contribution to journal › Review article › peer-review

72 Citations (Scopus)

Abstract

The purpose of this paper is to provide a brief review of some recent developments in quantum feedback networks and control. A quantum feedback network (QFN) is an interconnected system consisting of open quantum systems linked by free fields and/or direct physical couplings. Basic network constructs, including series connections as well as feedback loops, are discussed. The quantum feedback network theory provides a natural framework for analysis and design. Basic properties such as dissipation, stability, passivity and gain of open quantum systems are discussed. Control system design is also discussed, primarily in the context of open linear quantum stochastic systems. The issue of physical realizability is discussed, and explicit criteria for stability, positive real lemma, and bounded real lemma are presented. Finally for linear quantum systems, coherent H^∞ and LQG control are described.

Original language	English
Pages (from-to)	2200-2214
Number of pages	15
Journal	Chinese Science Bulletin
Volume	57
Issue number	18
DOIs	https://doi.org/10.1007/s11434-012-5199-7
Publication status	Published - Jun 2012

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title = "Quantum feedback networks and control: A brief survey",

abstract = "The purpose of this paper is to provide a brief review of some recent developments in quantum feedback networks and control. A quantum feedback network (QFN) is an interconnected system consisting of open quantum systems linked by free fields and/or direct physical couplings. Basic network constructs, including series connections as well as feedback loops, are discussed. The quantum feedback network theory provides a natural framework for analysis and design. Basic properties such as dissipation, stability, passivity and gain of open quantum systems are discussed. Control system design is also discussed, primarily in the context of open linear quantum stochastic systems. The issue of physical realizability is discussed, and explicit criteria for stability, positive real lemma, and bounded real lemma are presented. Finally for linear quantum systems, coherent H∞ and LQG control are described.",

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AB - The purpose of this paper is to provide a brief review of some recent developments in quantum feedback networks and control. A quantum feedback network (QFN) is an interconnected system consisting of open quantum systems linked by free fields and/or direct physical couplings. Basic network constructs, including series connections as well as feedback loops, are discussed. The quantum feedback network theory provides a natural framework for analysis and design. Basic properties such as dissipation, stability, passivity and gain of open quantum systems are discussed. Control system design is also discussed, primarily in the context of open linear quantum stochastic systems. The issue of physical realizability is discussed, and explicit criteria for stability, positive real lemma, and bounded real lemma are presented. Finally for linear quantum systems, coherent H∞ and LQG control are described.

KW - LQG control

KW - open quantum systems

KW - physical realizability

KW - quantum feedback networks

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SP - 2200

EP - 2214

JO - Chinese Science Bulletin

JF - Chinese Science Bulletin

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Quantum feedback networks and control: A brief survey

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