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Main Author: Procopio, Giuseppe
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.06720
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author Procopio, Giuseppe
author_facet Procopio, Giuseppe
contents In this article, the Green function for the Stokes flow in the interior, exterior, and annular regions bounded by cylindrical walls is derived as a function of the pole position and expressed invariantly both at the field and pole points. Specifically, the Green function is obtained using a cylindrical harmonic expansion of the Stokes flow within the bitensorial formulation. This formulation allows us to obtain higher-order singularities within the same domains, such as the confined Couplet and Stresslet, by simply differentiating the Green function at its pole. Moreover, the confined Sourcelet and its associated multipoles are derived from the Green function through a new method that enforces the reciprocal properties of the Stokes flow. The resulting singularities are then employed to address hydrodynamic problems involving active and passive colloids interacting with cylindrical walls, such as sedimenting particles in the annular cylindrical region and the attractive or repulsive hydrodynamic forces exerted by the cylindrical boundaries on a microswimmer.
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spellingShingle Green function and singularities in Stokes flow confined by cylindrical walls
Procopio, Giuseppe
Fluid Dynamics
In this article, the Green function for the Stokes flow in the interior, exterior, and annular regions bounded by cylindrical walls is derived as a function of the pole position and expressed invariantly both at the field and pole points. Specifically, the Green function is obtained using a cylindrical harmonic expansion of the Stokes flow within the bitensorial formulation. This formulation allows us to obtain higher-order singularities within the same domains, such as the confined Couplet and Stresslet, by simply differentiating the Green function at its pole. Moreover, the confined Sourcelet and its associated multipoles are derived from the Green function through a new method that enforces the reciprocal properties of the Stokes flow. The resulting singularities are then employed to address hydrodynamic problems involving active and passive colloids interacting with cylindrical walls, such as sedimenting particles in the annular cylindrical region and the attractive or repulsive hydrodynamic forces exerted by the cylindrical boundaries on a microswimmer.
title Green function and singularities in Stokes flow confined by cylindrical walls
topic Fluid Dynamics
url https://arxiv.org/abs/2507.06720