Cascade and locally dissipative realizations of linear quantum systems for pure Gaussian state covariance assignment

Shan Ma; Matthew J. Woolley; Ian R. Petersen; Naoki Yamamoto

doi:10.1016/j.automatica.2017.12.061

Cascade and locally dissipative realizations of linear quantum systems for pure Gaussian state covariance assignment

Shan Ma, Matthew J. Woolley, Ian R. Petersen, Naoki Yamamoto

Department of Applied Physics and Physico-Informatics

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

This paper presents two realizations of linear quantum systems for covariance assignment corresponding to pure Gaussian states. The first one is called a cascade realization; given any covariance matrix corresponding to a pure Gaussian state, we can construct a cascaded quantum system generating that state. The second one is called a locally dissipative realization; given a covariance matrix corresponding to a pure Gaussian state, if it satisfies certain conditions, we can construct a linear quantum system that has only local interactions with its environment and achieves the assigned covariance matrix. Both realizations are illustrated by examples from quantum optics.

Original language	English
Pages (from-to)	263-270
Number of pages	8
Journal	Automatica
Volume	90
DOIs	https://doi.org/10.1016/j.automatica.2017.12.061
Publication status	Published - 2018 Apr

Keywords

Cascade realization
Covariance assignment
Linear quantum system
Locally dissipative realization
Pure Gaussian state

ASJC Scopus subject areas

Control and Systems Engineering
Electrical and Electronic Engineering

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10.1016/j.automatica.2017.12.061

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@article{d4d72c3ec31a4eceaefdc0568e246f2e,

title = "Cascade and locally dissipative realizations of linear quantum systems for pure Gaussian state covariance assignment",

abstract = "This paper presents two realizations of linear quantum systems for covariance assignment corresponding to pure Gaussian states. The first one is called a cascade realization; given any covariance matrix corresponding to a pure Gaussian state, we can construct a cascaded quantum system generating that state. The second one is called a locally dissipative realization; given a covariance matrix corresponding to a pure Gaussian state, if it satisfies certain conditions, we can construct a linear quantum system that has only local interactions with its environment and achieves the assigned covariance matrix. Both realizations are illustrated by examples from quantum optics.",

keywords = "Cascade realization, Covariance assignment, Linear quantum system, Locally dissipative realization, Pure Gaussian state",

author = "Shan Ma and Woolley, {Matthew J.} and Petersen, {Ian R.} and Naoki Yamamoto",

note = "Funding Information: This work was supported by the 111 Project (B17048), the Australian Research Council (ARC) under grant FL110100020, the Air Force Office of Scientific Research (AFOSR), under agreement number FA2386-16-1-4065, the Australian Academy of Science, and JSPS Grant-in-Aid No. 15K06151. The material in this paper was partially presented at the 2014 IEEE Conference on Control Applications (CCA), Oct. 8–10, 2014, Antibes, France. This paper was recommended for publication in revised form by Associate Editor Yoshito Ohta under the direction of Editor Richard Middleton. Publisher Copyright: {\textcopyright} 2018 Elsevier Ltd",

year = "2018",

month = apr,

doi = "10.1016/j.automatica.2017.12.061",

language = "English",

volume = "90",

pages = "263--270",

journal = "Automatica",

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T1 - Cascade and locally dissipative realizations of linear quantum systems for pure Gaussian state covariance assignment

AU - Ma, Shan

AU - Woolley, Matthew J.

AU - Petersen, Ian R.

AU - Yamamoto, Naoki

N1 - Funding Information: This work was supported by the 111 Project (B17048), the Australian Research Council (ARC) under grant FL110100020, the Air Force Office of Scientific Research (AFOSR), under agreement number FA2386-16-1-4065, the Australian Academy of Science, and JSPS Grant-in-Aid No. 15K06151. The material in this paper was partially presented at the 2014 IEEE Conference on Control Applications (CCA), Oct. 8–10, 2014, Antibes, France. This paper was recommended for publication in revised form by Associate Editor Yoshito Ohta under the direction of Editor Richard Middleton. Publisher Copyright: © 2018 Elsevier Ltd

PY - 2018/4

Y1 - 2018/4

N2 - This paper presents two realizations of linear quantum systems for covariance assignment corresponding to pure Gaussian states. The first one is called a cascade realization; given any covariance matrix corresponding to a pure Gaussian state, we can construct a cascaded quantum system generating that state. The second one is called a locally dissipative realization; given a covariance matrix corresponding to a pure Gaussian state, if it satisfies certain conditions, we can construct a linear quantum system that has only local interactions with its environment and achieves the assigned covariance matrix. Both realizations are illustrated by examples from quantum optics.

AB - This paper presents two realizations of linear quantum systems for covariance assignment corresponding to pure Gaussian states. The first one is called a cascade realization; given any covariance matrix corresponding to a pure Gaussian state, we can construct a cascaded quantum system generating that state. The second one is called a locally dissipative realization; given a covariance matrix corresponding to a pure Gaussian state, if it satisfies certain conditions, we can construct a linear quantum system that has only local interactions with its environment and achieves the assigned covariance matrix. Both realizations are illustrated by examples from quantum optics.

KW - Cascade realization

KW - Covariance assignment

KW - Linear quantum system

KW - Locally dissipative realization

KW - Pure Gaussian state

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DO - 10.1016/j.automatica.2017.12.061

M3 - Article

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SN - 0005-1098

VL - 90

SP - 263

EP - 270

JO - Automatica

JF - Automatica

ER -

Cascade and locally dissipative realizations of linear quantum systems for pure Gaussian state covariance assignment

Abstract

Keywords

ASJC Scopus subject areas

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