# Statistical signature of vortex filaments in classic turbulence: dog or   tail?

**Authors:** Sergey K. Nemirovskii

arXiv: 1902.06214 · 2019-02-19

## TL;DR

This paper investigates whether vortex filaments are fundamental to turbulence dynamics or merely a secondary feature, using insights from quantized vortex dynamics to explore their role in energy transfer and spectral properties.

## Contribution

It demonstrates how vortex filament dynamics can explain core turbulence phenomena, bridging classical turbulence theory with quantized vortex insights.

## Key findings

- Vortex filament dynamics can produce Kolmogorov spectra.
- Energy exchange mechanisms are linked to filament interactions.
- Filament behavior influences turbulence decay patterns.

## Abstract

The title of this paper echoes the title of a paragraph in the famous book by Frisch on classical turbulence. In the relevant chapter, the author discusses the role of the statistical dynamics of vortex filaments in the fascinating problem of turbulence and the possibility of a breakthrough in constructing an advanced theory. This aspect arose due to the large amount of evidence, both experimental and numerical, that the vorticity field in turbulent flows has a pronounced filamentary structure. In fact, there is unquestionably a strong relationship between the dynamics of chaotic vortex filaments and turbulent phenomena. However, the question arises as to whether the basic properties of turbulence (cascade, scaling laws. etc.) are a consequence of the dynamics of the vortex filaments (the `dog' concept), or whether the latter have only a marginal significance (the `tail' concept). Based on well-established results regarding the dynamics of quantized vortex filaments in superfluids, we illustrate how these dynamics can lead to the main elements of the theory of turbulence. We cover key topics such as the exchange of energy between different scales, the possible origin of Kolmogorov-type spectra and the free decay behavior.

## Full text

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## Figures

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## References

56 references — full list in the complete paper: https://tomesphere.com/paper/1902.06214/full.md

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Source: https://tomesphere.com/paper/1902.06214