zhao_shaqfeh13

Summary

The shape stability of a lipid vesicle in a uniaxial extensional flow. H. Zhao and E.S.G. Shaqfeh. Journal of Fluid Mechanics, 719, 2013. (URL)

Abstract

The dynamics of a lipid vesicle in a uniaxial extensional flow are investigated by using a spectral boundary integral equation method. The vesicle at its stationary state assumes an axisymmetric shape of mirror symmetry, with its surface velocity vanishing everywhere. When the reduced volume of the vesicle is less than 0.75, there exists a critical capillary number, beyond which the stationary shape is unstable. The most unstable mode breaks the mirror symmetry of the shape so that the vesicle deforms into a dumbbell shape with two unequally sized ends. This is followed by the formation of a thin tube bridging the two dumbbell ends, whose length increases with time. The numerical results are in qualitative agreement with experimental observations.

Bibtex entry

@ARTICLE { zhao_shaqfeh13,
    AUTHOR = { H. Zhao and E.S.G. Shaqfeh },
    TITLE = { The shape stability of a lipid vesicle in a uniaxial extensional flow },
    JOURNAL = { Journal of Fluid Mechanics },
    YEAR = { 2013 },
    VOLUME = { 719 },
    ABSTRACT = { The dynamics of a lipid vesicle in a uniaxial extensional flow are investigated by using a spectral boundary integral equation method. The vesicle at its stationary state assumes an axisymmetric shape of mirror symmetry, with its surface velocity vanishing everywhere. When the reduced volume of the vesicle is less than 0.75, there exists a critical capillary number, beyond which the stationary shape is unstable. The most unstable mode breaks the mirror symmetry of the shape so that the vesicle deforms into a dumbbell shape with two unequally sized ends. This is followed by the formation of a thin tube bridging the two dumbbell ends, whose length increases with time. The numerical results are in qualitative agreement with experimental observations. },
    URL = { http://dx.doi.org/10.1017/jfm.2013.10 },
}