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Stability of a directional Marangoni flow

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Abstract

Marangoni flows result from surface-tension gradients, and these flows occur over finite distances on the surface, but the subsequent secondary flows can be observed on much larger lengthscales. These flows play major roles in various phenomena, from foam dynamics to microswimmer propulsion. We show here that if a Marangoni flow of soluble surfactants is confined laterally, the flow forms an inertial surface jet. A full picture of the flows on the surface is exhibited, and the velocity profile of the jet is predicted analytically, and is successfully compared with the experimental measurements. Moreover, this straight jet eventually destabilizes into meanders. A quantitative comparison between the theory and our experimental observations yields a very good agreement in terms of critical wavelengths. The characterization and understanding of the 2D flows generated by confined Marangoni spreading is a first step to understand the role of inertial effects in the Marangoni flows with and without confinement.

Graphical abstract: Stability of a directional Marangoni flow

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Article information


Submitted
23 Jul 2020
Accepted
02 Sep 2020
First published
02 Sep 2020

Soft Matter, 2020, Advance Article
Article type
Paper

Stability of a directional Marangoni flow

C. Tregouet and A. Saint-Jalmes, Soft Matter, 2020, Advance Article , DOI: 10.1039/D0SM01347A

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