The diverse nature of small-scale turbulence.

Ke-Qi Ding,Kun Yang,Xiang Yang,Yipeng Shi,Shiyi Chen

The diverse nature of small-scale turbulence.

2021

Ke-Qi Ding
Kun Yang
Xiang Yang
Yipeng Shi
Shiyi Chen

The self-similar Richardson cascade admits two logically possible scenarios of small-scale turbulence at high Reynolds numbers. In the first scenario, eddies' population densities vary as a function of eddies' scales. As a result, one or a few eddy types dominate at small scales, and small-scale turbulence lacks diversity. In the second scenario, eddies' population densities are scale-invariant across the inertial range, resulting in small-scale diversity. That is, there are as many types of eddies at the small scales as at the large scales. In this letter, we measure eddies' population densities in three-dimensional isotropic turbulence and determine the nature of small-scale turbulence. The result shows that eddies' population densities are scale-invariant.

Keywords:

Reynolds number
Range (statistics)
Inertial frame of reference
Cascade
Statistical physics
Geology
Isotropy
Eddy
Scale (descriptive set theory)
Turbulence

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