Hydrodynamics of random-organizing hyperuniform fluids
Disordered hyperuniform structures are locally random while uniform like crystals at large length scales. Recently, an exotic hyperuniform fluid state was found in several nonequilibrium systems, while the underlying physics remains unknown. In this work, we propose a nonequilibrium (driven-dissipat...
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sg-ntu-dr.10356-1503942023-12-29T06:54:31Z Hydrodynamics of random-organizing hyperuniform fluids Lei, Qun-Li Ni, Ran School of Chemical and Biomedical Engineering Engineering::Chemical engineering Hyperuniform Fluid State Hydrodynamics Disordered hyperuniform structures are locally random while uniform like crystals at large length scales. Recently, an exotic hyperuniform fluid state was found in several nonequilibrium systems, while the underlying physics remains unknown. In this work, we propose a nonequilibrium (driven-dissipative) hard-sphere model and formulate a hydrodynamic theory based on Navier–Stokes equations to uncover the general mechanism of the fluidic hyperuniformity (HU). At a fixed density, this model system undergoes a smooth transition from an absorbing state to an active hyperuniform fluid and then, to the equilibrium fluid by changing the dissipation strength. We study the criticality of the absorbing-phase transition. We find that the origin of fluidic HU can be understood as the damping of a stochastic harmonic oscillator in q space, which indicates that the suppressed long-wavelength density fluctuation in the hyperuniform fluid can exhibit as either acoustic (resonance) mode or diffusive (overdamped) mode. Importantly, our theory reveals that the damping dissipation and active reciprocal interaction (driving) are the two ingredients for fluidic HU. Based on this principle, we further demonstrate how to realize the fluidic HU in an experimentally accessible active spinner system and discuss the possible realization in other systems. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University Accepted version We thank Profs. Dov Levine and Hao Hu for helpful discussions. This work is supported by Nanyang Technological University Start-Up Grant M4081781.120; Academic Research Fund from Singapore Ministry of Education Grant M4011873.120; and Advanced Manufacturing and Engineering Young Individual Research Grant A1784C0018 by the Science and Engineering Research Council of Agency for Science, Technology and Research Singapore. 2021-05-24T05:02:07Z 2021-05-24T05:02:07Z 2019 Journal Article Lei, Q. & Ni, R. (2019). Hydrodynamics of random-organizing hyperuniform fluids. Proceedings of the National Academy of Sciences of the United States of America, 116(46), 22983-22989. https://dx.doi.org/10.1073/pnas.1911596116 0027-8424 https://hdl.handle.net/10356/150394 10.1073/pnas.1911596116 31666326 2-s2.0-85074893738 46 116 22983 22989 en M4081781.120 M4011873.120 A1784C0018 Proceedings of the National Academy of Sciences of the United States of America © 2019 The Author(s). All rights reserved. This paper was published by National Academy of Sciences in Proceedings of the National Academy of Sciences of the United States of America and is made available with permission of The Author(s). application/pdf |
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Engineering::Chemical engineering Hyperuniform Fluid State Hydrodynamics |
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Engineering::Chemical engineering Hyperuniform Fluid State Hydrodynamics Lei, Qun-Li Ni, Ran Hydrodynamics of random-organizing hyperuniform fluids |
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Disordered hyperuniform structures are locally random while uniform like crystals at large length scales. Recently, an exotic hyperuniform fluid state was found in several nonequilibrium systems, while the underlying physics remains unknown. In this work, we propose a nonequilibrium (driven-dissipative) hard-sphere model and formulate a hydrodynamic theory based on Navier–Stokes equations to uncover the general mechanism of the fluidic hyperuniformity (HU). At a fixed density, this model system undergoes a smooth transition from an absorbing state to an active hyperuniform fluid and then, to the equilibrium fluid by changing the dissipation strength. We study the criticality of the absorbing-phase transition. We find that the origin of fluidic HU can be understood as the damping of a stochastic harmonic oscillator in q space, which indicates that the suppressed long-wavelength density fluctuation in the hyperuniform fluid can exhibit as either acoustic (resonance) mode or diffusive (overdamped) mode. Importantly, our theory reveals that the damping dissipation and active reciprocal interaction (driving) are the two ingredients for fluidic HU. Based on this principle, we further demonstrate how to realize the fluidic HU in an experimentally accessible active spinner system and discuss the possible realization in other systems. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Lei, Qun-Li Ni, Ran |
| format |
Article |
| author |
Lei, Qun-Li Ni, Ran |
| author_sort |
Lei, Qun-Li |
| title |
Hydrodynamics of random-organizing hyperuniform fluids |
| title_short |
Hydrodynamics of random-organizing hyperuniform fluids |
| title_full |
Hydrodynamics of random-organizing hyperuniform fluids |
| title_fullStr |
Hydrodynamics of random-organizing hyperuniform fluids |
| title_full_unstemmed |
Hydrodynamics of random-organizing hyperuniform fluids |
| title_sort |
hydrodynamics of random-organizing hyperuniform fluids |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150394 |
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1787136821338046464 |