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Literature DB >> 10970611

One- and two-particle microrheology

Abstract

We study the dynamics of rigid spheres embedded in viscoelastic media and address two questions of importance to microrheology. First, we calculate the complete response to an external force of a single bead in a homogeneous elastic network viscously coupled to an incompressible fluid. From this response function we find the frequency range where the standard assumptions of microrheology are valid. Second, we study fluctuations when embedded spheres perturb the media around them and show that mutual fluctuations of two separated spheres provide a more accurate determination of the complex shear modulus than do the fluctuations of a single sphere.

Year: 2000 PMID： 10970611 DOI： 10.1103/PhysRevLett.85.1774

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

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Cited

30 in total

One- and two-particle microrheology

1. Colloid surface chemistry critically affects multiple particle tracking measurements of biomaterials.

2. Response of a polymer network to the motion of a rigid sphere.

3. The consensus mechanics of cultured mammalian cells.

Review 4. Bio-microrheology: a frontier in microrheology.

5. Fast fluorescence laser tracking microrheometry. I: instrument development.

6. Intracellular microrheology of motile Amoeba proteus.

7. A microrheological study of hydrogel kinetics and micro-heterogeneity.

8. Effects of cytoskeletal disruption on transport, structure, and rheology within mammalian cells.

9. Two-point particle tracking microrheology of nematic complex fluids.

10. Two-bead microrheology: modeling protocols.