Anti-parity-time symmetry in diffusive systems

Ying Li; Yu Gui Peng; Lei Han; Mohammad Ali Miri; Wei Li; Meng Xiao; Xue Feng Zhu; Jianlin Zhao; Andrea Alù; Shanhui Fan; Cheng Wei Qiu

doi:10.1126/science.aaw6259

Anti-parity-time symmetry in diffusive systems

Ying Li, Yu Gui Peng, Lei Han, Mohammad Ali Miri, Wei Li, Meng Xiao, Xue Feng Zhu, Jianlin Zhao, Andrea Alù, Shanhui Fan, Cheng Wei Qiu

School of Physical Science and Technology

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

268 Scopus citations

Abstract

Various concepts related to parity-time symmetry, including anti-parity-time symmetry, have found broad applications in wave physics. Wave systems are fundamentally described by Hermitian operators, whereas their unusual properties are introduced by incorporation of gain and loss. We propose that the related physics need not be restricted to wave dynamics, and we consider systems described by diffusive dynamics. We study the heat transfer in two countermoving media and show that this system exhibits anti-parity-time symmetry. The spontaneous symmetry breaking results in a phase transition from motionless temperature profiles, despite the mechanical motion of the background, to moving temperature profiles. Our results extend the concepts of parity-time symmetry beyond wave physics and may offer opportunities to manipulate heat and mass transport.

Original language	English
Pages (from-to)	170-173
Number of pages	4
Journal	Science
Volume	364
Issue number	6436
DOIs	https://doi.org/10.1126/science.aaw6259
State	Published - 2019

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title = "Anti-parity-time symmetry in diffusive systems",

abstract = "Various concepts related to parity-time symmetry, including anti-parity-time symmetry, have found broad applications in wave physics. Wave systems are fundamentally described by Hermitian operators, whereas their unusual properties are introduced by incorporation of gain and loss. We propose that the related physics need not be restricted to wave dynamics, and we consider systems described by diffusive dynamics. We study the heat transfer in two countermoving media and show that this system exhibits anti-parity-time symmetry. The spontaneous symmetry breaking results in a phase transition from motionless temperature profiles, despite the mechanical motion of the background, to moving temperature profiles. Our results extend the concepts of parity-time symmetry beyond wave physics and may offer opportunities to manipulate heat and mass transport.",

author = "Ying Li and Peng, {Yu Gui} and Lei Han and Miri, {Mohammad Ali} and Wei Li and Meng Xiao and Zhu, {Xue Feng} and Jianlin Zhao and Andrea Al{\`u} and Shanhui Fan and Qiu, {Cheng Wei}",

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doi = "10.1126/science.aaw6259",

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T1 - Anti-parity-time symmetry in diffusive systems

AU - Li, Ying

AU - Peng, Yu Gui

AU - Han, Lei

AU - Miri, Mohammad Ali

AU - Li, Wei

AU - Xiao, Meng

AU - Zhu, Xue Feng

AU - Zhao, Jianlin

AU - Alù, Andrea

AU - Fan, Shanhui

AU - Qiu, Cheng Wei

PY - 2019

Y1 - 2019

N2 - Various concepts related to parity-time symmetry, including anti-parity-time symmetry, have found broad applications in wave physics. Wave systems are fundamentally described by Hermitian operators, whereas their unusual properties are introduced by incorporation of gain and loss. We propose that the related physics need not be restricted to wave dynamics, and we consider systems described by diffusive dynamics. We study the heat transfer in two countermoving media and show that this system exhibits anti-parity-time symmetry. The spontaneous symmetry breaking results in a phase transition from motionless temperature profiles, despite the mechanical motion of the background, to moving temperature profiles. Our results extend the concepts of parity-time symmetry beyond wave physics and may offer opportunities to manipulate heat and mass transport.

AB - Various concepts related to parity-time symmetry, including anti-parity-time symmetry, have found broad applications in wave physics. Wave systems are fundamentally described by Hermitian operators, whereas their unusual properties are introduced by incorporation of gain and loss. We propose that the related physics need not be restricted to wave dynamics, and we consider systems described by diffusive dynamics. We study the heat transfer in two countermoving media and show that this system exhibits anti-parity-time symmetry. The spontaneous symmetry breaking results in a phase transition from motionless temperature profiles, despite the mechanical motion of the background, to moving temperature profiles. Our results extend the concepts of parity-time symmetry beyond wave physics and may offer opportunities to manipulate heat and mass transport.

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SN - 0036-8075

VL - 364

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JO - Science

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Anti-parity-time symmetry in diffusive systems

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