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Dimension Crossing Turbulent Cascade in an Excited Lattice Bose Gas
arXiv
Authors: Tianwei Zhou, Ruixiao Yao, Kaixiang Yang, Shengjie Jin, Yueyang Zhai, Xuguang Yue, Shifeng Yang, Xiaoji Zhou, Xuzong Chen, Xiaopeng Li
Year
2019
Paper ID
39500
Status
Preprint
Abstract Read
~2 min
Abstract Words
177
Citations
N/A
Abstract
Turbulence is an intriguing non-equilibrium state, which originates from fluid mechanics and has far-reaching consequences in the description of climate physics, the characterization of quantum hydrodynamics, and the understanding of cosmic evolution. The concept of turbulent cascade describing the energy redistribution across different length scales offers one profound route to reconcile fundamental conservative forces with observational energy non-conservation of accelerating expansion of the universe bypassing the cosmological constant. Here, we observe a dimension crossing turbulent energy cascade in an atomic Bose-Einstein condensate confined in a two-dimensional (2d) optical lattice forming a 2d array of tubes, which exhibits universal behaviors in the dynamical energy-redistribution across different dimensions. By exciting atoms into the optical-lattice high bands, the excessive energy of this quantum many-body system is found to cascade from the transverse two-dimensional lattice directions to the continuous dimension, giving rise to a one-dimensional turbulent energy cascade, which is in general challenging to reach due to integrability. We expect this observed novel phenomenon of dimension-crossing energy cascade may inspire microscopic theories for modeling positive cosmological constant of our inflationary universe.
Why This Paper Matters
- It adds a 2019 reference point for readers tracking recent quantum research.
- Turbulence is an intriguing non-equilibrium state, which originates from fluid mechanics and has far-reaching consequences in the description of climate physics, the...
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