Universal scaling of the dynamic BKT transition in quenched 2D Bose gases.

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Title: Universal scaling of the dynamic BKT transition in quenched 2D Bose gases.
Authors: Sunami, Shinichi, Singh, Vijay Pal, Garrick, David, Beregi, Abel, Barker, Adam J., Luksch, Kathrin, Bentine, Elliot, Mathey, Ludwig, Foot, Christopher J.
Source: Science (pre-March 2025). 10/27/2023, Vol. 382 Issue 6669, p443-447. 5p. 1 Color Photograph, 4 Diagrams.
Subjects: Quantum theory, Renormalization group, Bose-Einstein gas, De-Broglie waves, Statistical correlation, Statistical physics, Critical point (Thermodynamics), Superfluidity
Abstract: The understanding of nonequilibrium dynamics in many-body quantum systems is a fundamental issue in statistical physics. Experiments that probe universal properties of these systems can address such foundational questions. In this study, we report the measurement of universal dynamics triggered by a quench from the superfluid to normal phase across the Berezinskii-Kosterlitz-Thouless transition in a two-dimensional (2D) Bose gas. We reduced the density by splitting the 2D gas in two, realizing a quench across the critical point. The subsequent relaxation dynamics were probed with matter-wave interferometry to measure the local phase fluctuations. We show that the time evolution of both the phase correlation function and vortex density obeys universal scaling laws. This conclusion is supported by classical-field simulations and interpreted by means of real-time renormalization group theory. [ABSTRACT FROM AUTHOR]
Copyright of Science (pre-March 2025) is the property of American Association for the Advancement of Science and its content may not be copied or emailed to multiple sites without the copyright holder's express written permission. Additionally, content may not be used with any artificial intelligence tools or machine learning technologies. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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  Data: Universal scaling of the dynamic BKT transition in quenched 2D Bose gases.
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  Data: <searchLink fieldCode="AR" term="%22Sunami%2C+Shinichi%22">Sunami, Shinichi</searchLink><br /><searchLink fieldCode="AR" term="%22Singh%2C+Vijay+Pal%22">Singh, Vijay Pal</searchLink><br /><searchLink fieldCode="AR" term="%22Garrick%2C+David%22">Garrick, David</searchLink><br /><searchLink fieldCode="AR" term="%22Beregi%2C+Abel%22">Beregi, Abel</searchLink><br /><searchLink fieldCode="AR" term="%22Barker%2C+Adam+J%2E%22">Barker, Adam J.</searchLink><br /><searchLink fieldCode="AR" term="%22Luksch%2C+Kathrin%22">Luksch, Kathrin</searchLink><br /><searchLink fieldCode="AR" term="%22Bentine%2C+Elliot%22">Bentine, Elliot</searchLink><br /><searchLink fieldCode="AR" term="%22Mathey%2C+Ludwig%22">Mathey, Ludwig</searchLink><br /><searchLink fieldCode="AR" term="%22Foot%2C+Christopher+J%2E%22">Foot, Christopher J.</searchLink>
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  Data: <searchLink fieldCode="JN" term="%22Science+%28pre-March+2025%29%22">Science (pre-March 2025)</searchLink>. 10/27/2023, Vol. 382 Issue 6669, p443-447. 5p. 1 Color Photograph, 4 Diagrams.
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  Data: <searchLink fieldCode="DE" term="%22Quantum+theory%22">Quantum theory</searchLink><br /><searchLink fieldCode="DE" term="%22Renormalization+group%22">Renormalization group</searchLink><br /><searchLink fieldCode="DE" term="%22Bose-Einstein+gas%22">Bose-Einstein gas</searchLink><br /><searchLink fieldCode="DE" term="%22De-Broglie+waves%22">De-Broglie waves</searchLink><br /><searchLink fieldCode="DE" term="%22Statistical+correlation%22">Statistical correlation</searchLink><br /><searchLink fieldCode="DE" term="%22Statistical+physics%22">Statistical physics</searchLink><br /><searchLink fieldCode="DE" term="%22Critical+point+%28Thermodynamics%29%22">Critical point (Thermodynamics)</searchLink><br /><searchLink fieldCode="DE" term="%22Superfluidity%22">Superfluidity</searchLink>
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  Data: The understanding of nonequilibrium dynamics in many-body quantum systems is a fundamental issue in statistical physics. Experiments that probe universal properties of these systems can address such foundational questions. In this study, we report the measurement of universal dynamics triggered by a quench from the superfluid to normal phase across the Berezinskii-Kosterlitz-Thouless transition in a two-dimensional (2D) Bose gas. We reduced the density by splitting the 2D gas in two, realizing a quench across the critical point. The subsequent relaxation dynamics were probed with matter-wave interferometry to measure the local phase fluctuations. We show that the time evolution of both the phase correlation function and vortex density obeys universal scaling laws. This conclusion is supported by classical-field simulations and interpreted by means of real-time renormalization group theory. [ABSTRACT FROM AUTHOR]
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  Group: Ab
  Data: <i>Copyright of Science (pre-March 2025) is the property of American Association for the Advancement of Science and its content may not be copied or emailed to multiple sites without the copyright holder's express written permission. Additionally, content may not be used with any artificial intelligence tools or machine learning technologies. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract.</i> (Copyright applies to all Abstracts.)
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        Value: 10.1126/science.abq6753
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        Text: English
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      – SubjectFull: Renormalization group
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      – SubjectFull: Bose-Einstein gas
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      – SubjectFull: De-Broglie waves
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      – SubjectFull: Statistical correlation
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      – SubjectFull: Statistical physics
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      – SubjectFull: Critical point (Thermodynamics)
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      – SubjectFull: Superfluidity
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      – TitleFull: Universal scaling of the dynamic BKT transition in quenched 2D Bose gases.
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            NameFull: Sunami, Shinichi
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              Text: 10/27/2023
              Type: published
              Y: 2023
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