The anyonic recovery of parity-time symmetry in coupled circuits system

Xin Chang Liu; Dan Dan Sun; Xiao Dong Shi; Xiao Lei Zhang; Qi Zhang; Xiang Jun Xin

doi:10.1209/0295-5075/aca69b

The anyonic recovery of parity-time symmetry in coupled circuits system

Xin Chang Liu^*, Dan Dan Sun, Xiao Dong Shi, Xiao Lei Zhang, Qi Zhang, Xiang Jun Xin

^*Corresponding author for this work

School of Information and Electronics

Beijing University of Posts and Telecommunications

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

1 Citation (Scopus)

Abstract

Hermiticity is the fundamental property of the physical systems, for which it should obey the laws of energy conservation and time-reversal symmetry. Parity-time symmetry is introduced to study the non-Hermitian system with real energy spectra. Considering the coupling dissipation of the practical system, there would be phase-related terms on the non-diagonal elements of the Hermitian matrix. Here in this work, we present a coupled circuit model of the system and investigate the dynamics of parity-time-anyonic Hamiltonian related to an arbitrary phase of the system. We find that parity-time symmetry can be achieved under the tunable phases in the quasi-parity-time symmetric circuit system.

Original language	English
Article number	58002
Journal	Europhysics Letters
Volume	140
Issue number	5
DOIs	https://doi.org/10.1209/0295-5075/aca69b
Publication status	Published - Dec 2022

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title = "The anyonic recovery of parity-time symmetry in coupled circuits system",

abstract = "Hermiticity is the fundamental property of the physical systems, for which it should obey the laws of energy conservation and time-reversal symmetry. Parity-time symmetry is introduced to study the non-Hermitian system with real energy spectra. Considering the coupling dissipation of the practical system, there would be phase-related terms on the non-diagonal elements of the Hermitian matrix. Here in this work, we present a coupled circuit model of the system and investigate the dynamics of parity-time-anyonic Hamiltonian related to an arbitrary phase of the system. We find that parity-time symmetry can be achieved under the tunable phases in the quasi-parity-time symmetric circuit system.",

author = "Liu, {Xin Chang} and Sun, {Dan Dan} and Shi, {Xiao Dong} and Zhang, {Xiao Lei} and Qi Zhang and Xin, {Xiang Jun}",

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AU - Liu, Xin Chang

AU - Sun, Dan Dan

AU - Shi, Xiao Dong

AU - Zhang, Xiao Lei

AU - Zhang, Qi

AU - Xin, Xiang Jun

PY - 2022/12

Y1 - 2022/12

N2 - Hermiticity is the fundamental property of the physical systems, for which it should obey the laws of energy conservation and time-reversal symmetry. Parity-time symmetry is introduced to study the non-Hermitian system with real energy spectra. Considering the coupling dissipation of the practical system, there would be phase-related terms on the non-diagonal elements of the Hermitian matrix. Here in this work, we present a coupled circuit model of the system and investigate the dynamics of parity-time-anyonic Hamiltonian related to an arbitrary phase of the system. We find that parity-time symmetry can be achieved under the tunable phases in the quasi-parity-time symmetric circuit system.

AB - Hermiticity is the fundamental property of the physical systems, for which it should obey the laws of energy conservation and time-reversal symmetry. Parity-time symmetry is introduced to study the non-Hermitian system with real energy spectra. Considering the coupling dissipation of the practical system, there would be phase-related terms on the non-diagonal elements of the Hermitian matrix. Here in this work, we present a coupled circuit model of the system and investigate the dynamics of parity-time-anyonic Hamiltonian related to an arbitrary phase of the system. We find that parity-time symmetry can be achieved under the tunable phases in the quasi-parity-time symmetric circuit system.

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VL - 140

JO - Europhysics Letters

JF - Europhysics Letters

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ER -

The anyonic recovery of parity-time symmetry in coupled circuits system

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