# Quantum turbulence in quantum gases

**Authors:** L. Madeira, M. A. Caracanhas, F. E. A. dos Santos, V. S., Bagnato

arXiv: 1903.12215 · 2019-10-29

## TL;DR

This paper reviews recent experimental and theoretical advances in quantum turbulence within atomic Bose-Einstein condensates, highlighting similarities and differences with classical turbulence and outlining future research directions.

## Contribution

It provides a comprehensive overview of quantum turbulence in atomic Bose-Einstein condensates, emphasizing recent progress and identifying key challenges and questions for the field.

## Key findings

- Quantum turbulence exhibits unique properties compared to classical turbulence.
- Experimental techniques have advanced understanding of vortex dynamics in BECs.
- Theoretical models are being developed to describe quantum turbulent states.

## Abstract

Turbulence is characterized by a large number of degrees of freedom, distributed over several length scales, that result into a disordered state of a fluid. The field of quantum turbulence deals with the manifestation of turbulence in quantum fluids, such as liquid helium and ultracold gases. We review, from both experimental and theoretical points of view, advances in quantum turbulence focusing on atomic Bose-Einstein condensates. We also explore the similarities and differences between quantum and classical turbulence. Lastly, we present challenges and possible directions for the field. We summarize questions that are being asked in recent works, which need to be answered in order to understand fundamental properties of quantum turbulence, and we provide some possible ways of investigating them.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/1903.12215/full.md

## References

143 references — full list in the complete paper: https://tomesphere.com/paper/1903.12215/full.md

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Source: https://tomesphere.com/paper/1903.12215