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Literature DB >> 16486649

Vacillating breathing and tumbling of vesicles under shear flow.

Abstract

The dynamics of vesicles under a shear flow are analyzed analytically in the small deformation regime. We derive two coupled nonlinear equations which describe the vesicle orientation in the flow and its shape evolution. A new type of motion is found, namely, a "vacillating-breathing" mode: the vesicle orientation undergoes an oscillation around the flow direction, while the shape executes breathing dynamics. This solution coexists with tumbling. Moreover, we provide an explicit expression for the tumbling threshold. A rheological law for a dilute vesicle suspension is outlined.

Mesh：

Year: 2006 PMID： 16486649 DOI： 10.1103/PhysRevLett.96.028104

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

17 in total

Vacillating breathing and tumbling of vesicles under shear flow.

1. Flow-induced clustering and alignment of vesicles and red blood cells in microcapillaries.

2. Dynamics of a vesicle in general flow.

3. Micro-macro link in rheology of erythrocyte and vesicle suspensions.

4. Elastic capsules in shear flow: analytical solutions for constant and time-dependent shear rates.

5. Two-dimensional fluctuating vesicles in linear shear flow.

6. Two-dimensional simulation of red blood cell motion near a wall under a lateral force.

7. Viscoelastic transient of confined red blood cells.

8. Angle of inclination of tank-treading red cells: dependence on shear rate and suspending medium.

9. Quantification of mixing in vesicle suspensions using numerical simulations in two dimensions.

10. Creeping motion of a solid particle inside a spherical elastic cavity^⋆.