Realizing the dynamics of a non-Markovian quantum system by Markovian coupled oscillators: a Green’s function-based root locus approach

Shibei Xue; Ian R. Petersen

doi:10.1007/s11128-015-1196-5

Realizing the dynamics of a non-Markovian quantum system by Markovian coupled oscillators: a Green’s function-based root locus approach

Shibei Xue^*, Ian R. Petersen

^*Corresponding author for this work

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

10 Citations (Scopus)

Abstract

In this paper, we develop a Green’s function-based root locus approach to realizing a Lorentzian-noise-disturbed non-Markovian quantum system by Markovian coupled oscillators in an extended Hilbert space. By using a Green’s function-based root locus method, we design an ancillary oscillator for Markovian coupled oscillators to be a Lorentzian noise generator. Thus a principal oscillator coupled to the ancillary oscillator via a direct interaction can capture the dynamics of a Lorentzian-noise-disturbed non-Markovian quantum system. By matching the root locus in the frequency domain, conditions for the realization are obtained and a critical transition in the non-Markovian quantum system can also be observed in the Markovian coupled oscillators.

Original language	English
Pages (from-to)	1001-1018
Number of pages	18
Journal	Quantum Information Processing
Volume	15
Issue number	2
DOIs	https://doi.org/10.1007/s11128-015-1196-5
Publication status	Published - 1 Feb 2016
Externally published	Yes

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title = "Realizing the dynamics of a non-Markovian quantum system by Markovian coupled oscillators: a Green{\textquoteright}s function-based root locus approach",

abstract = "In this paper, we develop a Green{\textquoteright}s function-based root locus approach to realizing a Lorentzian-noise-disturbed non-Markovian quantum system by Markovian coupled oscillators in an extended Hilbert space. By using a Green{\textquoteright}s function-based root locus method, we design an ancillary oscillator for Markovian coupled oscillators to be a Lorentzian noise generator. Thus a principal oscillator coupled to the ancillary oscillator via a direct interaction can capture the dynamics of a Lorentzian-noise-disturbed non-Markovian quantum system. By matching the root locus in the frequency domain, conditions for the realization are obtained and a critical transition in the non-Markovian quantum system can also be observed in the Markovian coupled oscillators.",

keywords = "Critical transition, Green{\textquoteright}s function, Markovian dynamics, Non-Markovian open quantum systems, Root locus",

author = "Shibei Xue and Petersen, \{Ian R.\}",

note = "Publisher Copyright: {\textcopyright} 2015, Springer Science+Business Media New York.",

year = "2016",

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doi = "10.1007/s11128-015-1196-5",

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T2 - a Green’s function-based root locus approach

AU - Xue, Shibei

AU - Petersen, Ian R.

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Y1 - 2016/2/1

N2 - In this paper, we develop a Green’s function-based root locus approach to realizing a Lorentzian-noise-disturbed non-Markovian quantum system by Markovian coupled oscillators in an extended Hilbert space. By using a Green’s function-based root locus method, we design an ancillary oscillator for Markovian coupled oscillators to be a Lorentzian noise generator. Thus a principal oscillator coupled to the ancillary oscillator via a direct interaction can capture the dynamics of a Lorentzian-noise-disturbed non-Markovian quantum system. By matching the root locus in the frequency domain, conditions for the realization are obtained and a critical transition in the non-Markovian quantum system can also be observed in the Markovian coupled oscillators.

AB - In this paper, we develop a Green’s function-based root locus approach to realizing a Lorentzian-noise-disturbed non-Markovian quantum system by Markovian coupled oscillators in an extended Hilbert space. By using a Green’s function-based root locus method, we design an ancillary oscillator for Markovian coupled oscillators to be a Lorentzian noise generator. Thus a principal oscillator coupled to the ancillary oscillator via a direct interaction can capture the dynamics of a Lorentzian-noise-disturbed non-Markovian quantum system. By matching the root locus in the frequency domain, conditions for the realization are obtained and a critical transition in the non-Markovian quantum system can also be observed in the Markovian coupled oscillators.

KW - Critical transition

KW - Green’s function

KW - Markovian dynamics

KW - Non-Markovian open quantum systems

KW - Root locus

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DO - 10.1007/s11128-015-1196-5

M3 - Article

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JO - Quantum Information Processing

JF - Quantum Information Processing

IS - 2

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Realizing the dynamics of a non-Markovian quantum system by Markovian coupled oscillators: a Green’s function-based root locus approach

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