Efficient determination of the Markovian time-evolution towards a steady-state of a complex open quantum system

Thorsteinn H. Jonsson; Andrei Manolescu; Hsi Sheng Goan; Nzar Rauf Abdullah; Anna Sitek; Chi Shung Tang; Vidar Gudmundsson

doi:10.1016/j.cpc.2017.06.018

Efficient determination of the Markovian time-evolution towards a steady-state of a complex open quantum system

Thorsteinn H. Jonsson
, Andrei Manolescu
, Hsi Sheng Goan
, Nzar Rauf Abdullah
, Anna Sitek
, Chi Shung Tang
, Vidar Gudmundsson

University of Iceland, Reykjavik University

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

Abstract

Master equations are commonly used to describe time evolution of open systems. We introduce a general computationally efficient method for calculating a Markovian solution of the Nakajima–Zwanzig generalized master equation. We do so for a time-dependent transport of interacting electrons through a complex nano scale system in a photon cavity. The central system, described by 120 many-body states in a Fock space, is weakly coupled to the external leads. The efficiency of the approach allows us to place the bias window defined by the external leads high into the many-body spectrum of the cavity photon-dressed states of the central system revealing a cascade of intermediate transitions as the system relaxes to a steady state. The very diverse relaxation times present in the open system, reflecting radiative or non-radiative transitions, require information about the time evolution through many orders of magnitude. In our approach, the generalized master equation is mapped from a many-body Fock space of states to a Liouville space of transitions. We show that this results in a linear equation which is solved exactly through an eigenvalue analysis, which supplies information on the steady state and the time evolution of the system.

Original language	English
Pages (from-to)	81-90
Number of pages	10
Journal	Computer Physics Communications
Volume	220
DOIs	https://doi.org/10.1016/j.cpc.2017.06.018
Publication status	Published - Nov 2017

Bibliographical note

Funding Information: This work was financially supported by the Research Fund of the University of Iceland, The Icelandic Research Fund, Grant No.?163082-051, and the Icelandic Instruments Fund. We also acknowledge support from the computational facilities of the Nordic High Performance Computing (NHPC), and the Nordic network NANOCONTROL, Project No.?P-13053. HSG acknowledges support from MOST, Taiwan, under Grant No.?103-2112-M-002-003-MY3. Publisher Copyright: © 2017 Elsevier B.V.

Other keywords

Electron transport
Liouville space
Open quantum systems
Photon-cavity

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10.1016/j.cpc.2017.06.018

Cite this

@article{003fdb9f05754d9a9e767a4bec6aa30a,

title = "Efficient determination of the Markovian time-evolution towards a steady-state of a complex open quantum system",

abstract = "Master equations are commonly used to describe time evolution of open systems. We introduce a general computationally efficient method for calculating a Markovian solution of the Nakajima–Zwanzig generalized master equation. We do so for a time-dependent transport of interacting electrons through a complex nano scale system in a photon cavity. The central system, described by 120 many-body states in a Fock space, is weakly coupled to the external leads. The efficiency of the approach allows us to place the bias window defined by the external leads high into the many-body spectrum of the cavity photon-dressed states of the central system revealing a cascade of intermediate transitions as the system relaxes to a steady state. The very diverse relaxation times present in the open system, reflecting radiative or non-radiative transitions, require information about the time evolution through many orders of magnitude. In our approach, the generalized master equation is mapped from a many-body Fock space of states to a Liouville space of transitions. We show that this results in a linear equation which is solved exactly through an eigenvalue analysis, which supplies information on the steady state and the time evolution of the system.",

keywords = "Electron transport, Liouville space, Open quantum systems, Photon-cavity",

author = "Jonsson, \{Thorsteinn H.\} and Andrei Manolescu and Goan, \{Hsi Sheng\} and Abdullah, \{Nzar Rauf\} and Anna Sitek and Tang, \{Chi Shung\} and Vidar Gudmundsson",

note = "Funding Information: This work was financially supported by the Research Fund of the University of Iceland, The Icelandic Research Fund, Grant No.?163082-051, and the Icelandic Instruments Fund. We also acknowledge support from the computational facilities of the Nordic High Performance Computing (NHPC), and the Nordic network NANOCONTROL, Project No.?P-13053. HSG acknowledges support from MOST, Taiwan, under Grant No.?103-2112-M-002-003-MY3. Publisher Copyright: {\textcopyright} 2017 Elsevier B.V.",

year = "2017",

month = nov,

doi = "10.1016/j.cpc.2017.06.018",

language = "English",

volume = "220",

pages = "81--90",

journal = "Computer Physics Communications",

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AU - Jonsson, Thorsteinn H.

AU - Manolescu, Andrei

AU - Goan, Hsi Sheng

AU - Abdullah, Nzar Rauf

AU - Sitek, Anna

AU - Tang, Chi Shung

AU - Gudmundsson, Vidar

N1 - Funding Information: This work was financially supported by the Research Fund of the University of Iceland, The Icelandic Research Fund, Grant No.?163082-051, and the Icelandic Instruments Fund. We also acknowledge support from the computational facilities of the Nordic High Performance Computing (NHPC), and the Nordic network NANOCONTROL, Project No.?P-13053. HSG acknowledges support from MOST, Taiwan, under Grant No.?103-2112-M-002-003-MY3. Publisher Copyright: © 2017 Elsevier B.V.

PY - 2017/11

Y1 - 2017/11

N2 - Master equations are commonly used to describe time evolution of open systems. We introduce a general computationally efficient method for calculating a Markovian solution of the Nakajima–Zwanzig generalized master equation. We do so for a time-dependent transport of interacting electrons through a complex nano scale system in a photon cavity. The central system, described by 120 many-body states in a Fock space, is weakly coupled to the external leads. The efficiency of the approach allows us to place the bias window defined by the external leads high into the many-body spectrum of the cavity photon-dressed states of the central system revealing a cascade of intermediate transitions as the system relaxes to a steady state. The very diverse relaxation times present in the open system, reflecting radiative or non-radiative transitions, require information about the time evolution through many orders of magnitude. In our approach, the generalized master equation is mapped from a many-body Fock space of states to a Liouville space of transitions. We show that this results in a linear equation which is solved exactly through an eigenvalue analysis, which supplies information on the steady state and the time evolution of the system.

AB - Master equations are commonly used to describe time evolution of open systems. We introduce a general computationally efficient method for calculating a Markovian solution of the Nakajima–Zwanzig generalized master equation. We do so for a time-dependent transport of interacting electrons through a complex nano scale system in a photon cavity. The central system, described by 120 many-body states in a Fock space, is weakly coupled to the external leads. The efficiency of the approach allows us to place the bias window defined by the external leads high into the many-body spectrum of the cavity photon-dressed states of the central system revealing a cascade of intermediate transitions as the system relaxes to a steady state. The very diverse relaxation times present in the open system, reflecting radiative or non-radiative transitions, require information about the time evolution through many orders of magnitude. In our approach, the generalized master equation is mapped from a many-body Fock space of states to a Liouville space of transitions. We show that this results in a linear equation which is solved exactly through an eigenvalue analysis, which supplies information on the steady state and the time evolution of the system.

KW - Electron transport

KW - Liouville space

KW - Open quantum systems

KW - Photon-cavity

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U2 - 10.1016/j.cpc.2017.06.018

DO - 10.1016/j.cpc.2017.06.018

M3 - Article

SN - 0010-4655

VL - 220

SP - 81

EP - 90

JO - Computer Physics Communications

JF - Computer Physics Communications

ER -

Efficient determination of the Markovian time-evolution towards a steady-state of a complex open quantum system

Abstract

Bibliographical note

Other keywords

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