Geometry of self-propulsion at low reynolds number

Alfred Shapere; Frank Wilczek

doi:10.1017/S002211208900025X

Geometry of self-propulsion at low reynolds number

Alfred Shapere, Frank Wilczek

Research output: Contribution to journal › Article › peer-review

297 Scopus citations

Abstract

The problem of swimming at low Reynolds number is formulated in terms of a gauge field on the space of shapes. Effective methods for computing this field, by solving a linear boundary-value problem, are described. We employ conformal-mapping techniques to calculate swimming motions for cylinders with a variety of cross-sections. We also determine the net translational motion due to arbitrary infinitesimal deformations of a sphere.

Original language	English (US)
Pages (from-to)	557-585
Number of pages	29
Journal	journal of fluid mechanics
Volume	198
DOIs	https://doi.org/10.1017/S002211208900025X
State	Published - Jan 1989
Externally published	Yes

ASJC Scopus subject areas

Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering
Applied Mathematics

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10.1017/S002211208900025X

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title = "Geometry of self-propulsion at low reynolds number",

abstract = "The problem of swimming at low Reynolds number is formulated in terms of a gauge field on the space of shapes. Effective methods for computing this field, by solving a linear boundary-value problem, are described. We employ conformal-mapping techniques to calculate swimming motions for cylinders with a variety of cross-sections. We also determine the net translational motion due to arbitrary infinitesimal deformations of a sphere.",

author = "Alfred Shapere and Frank Wilczek",

year = "1989",

month = jan,

doi = "10.1017/S002211208900025X",

language = "English (US)",

volume = "198",

pages = "557--585",

journal = "journal of fluid mechanics",

issn = "0022-1120",

publisher = "Cambridge University Press",

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AU - Shapere, Alfred

AU - Wilczek, Frank

PY - 1989/1

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N2 - The problem of swimming at low Reynolds number is formulated in terms of a gauge field on the space of shapes. Effective methods for computing this field, by solving a linear boundary-value problem, are described. We employ conformal-mapping techniques to calculate swimming motions for cylinders with a variety of cross-sections. We also determine the net translational motion due to arbitrary infinitesimal deformations of a sphere.

AB - The problem of swimming at low Reynolds number is formulated in terms of a gauge field on the space of shapes. Effective methods for computing this field, by solving a linear boundary-value problem, are described. We employ conformal-mapping techniques to calculate swimming motions for cylinders with a variety of cross-sections. We also determine the net translational motion due to arbitrary infinitesimal deformations of a sphere.

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VL - 198

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JO - journal of fluid mechanics

JF - journal of fluid mechanics

ER -

Geometry of self-propulsion at low reynolds number

Abstract

ASJC Scopus subject areas

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