Pearling and Pinching: Propagation of Rayleigh Instabilities

A. Friedman; A. Kolmogorov; D. T. Papageorgiou; E. Ben-Jacob; F. Liu; G. Dee; G. I. Taylor; H. Lamb; H. Stone; J. Plateau; L. Limat; Lord Rayleigh; M. Cross; M. Renardy; P. Nelson; P. T. Mather; R. E. Goldstein; R. Fisher; R. Granek; Raymond E. Goldstein; S. J. VanHook; S. Sankaran; S. Tomotika; Thomas R. Powers; W-K. Lee; W. van Saarloos; Y. Giga

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Pearling and Pinching: Propagation of Rayleigh Instabilities

Authors: A. Friedman
A. Kolmogorov
D. T. Papageorgiou
E. Ben-Jacob
F. Liu
G. Dee
G. I. Taylor
H. Lamb
H. Stone
J. Plateau
L. Limat
Lord Rayleigh
M. Cross
M. Renardy
P. Nelson
P. T. Mather
R. E. Goldstein
R. Fisher
R. Granek
Raymond E. Goldstein
S. J. VanHook
S. Sankaran
S. Tomotika
Thomas R. Powers
W-K. Lee
W. van Saarloos
Y. Giga
Publication date: 30 September 1996
Publisher: 'American Physical Society (APS)'
Doi

Abstract

A new category of front propagation problems is proposed in which a spreading instability evolves through a singular configuration before saturating. We examine the nature of this front for the viscous Rayleigh instability of a column of one fluid immersed in another, using the marginal stability criterion to estimate the front velocity, front width, and the selected wavelength in terms of the surface tension and viscosity contrast. Experiments are suggested on systems that may display this phenomenon, including droplets elongated in extensional flows, capillary bridges, liquid crystal tethers, and viscoelastic fluids. The related problem of propagation in Rayleigh-like systems that do not fission is also considered.Comment: Revtex, 7 pages, 4 ps figs, PR

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