One-bead microrheology with rotating particles
- 1 February 2005
- journal article
- Published by IOP Publishing in Europhysics Letters
- Vol. 69 (4) , 629-635
- https://doi.org/10.1209/epl/i2004-10397-8
Abstract
We lay the theoretical basis for one-bead microrheology with rotating particles, i.e, a method where colloids are used to probe the mechanical properties of viscoelastic media. Based on a two-fluid model, we calculate the compliance and discuss it for two cases. We first assume that the elastic and fluid component exhibit both stick boundary conditions at the particle surface. Then, the compliance fulfills a generalized Stokes law with a complex shear modulus whose validity is only limited by inertial effects, in contrast to translational motion. Secondly, we find that the validity of the Stokes regime is reduced when the elastic network is not coupled to the particleKeywords
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This publication has 23 references indexed in Scilit:
- Highly birefringent colloidal particles for tracer studiesJournal of Physics: Condensed Matter, 2004
- Optical Microrheology Using Rotating Laser-Trapped ParticlesPhysical Review Letters, 2004
- Hydrodynamic coupling of two rotating spheres trapped in harmonic potentialsPhysical Review E, 2004
- Rotational Diffusion MicrorheologyPhysical Review Letters, 2003
- Two-point microrheology and the electrostatic analogyPhysical Review E, 2001
- Diffusing Wave Spectroscopy Microrheology of Actin Filament NetworksBiophysical Journal, 1999
- Measurement of Local Viscoelasticity and Forces in Living Cells by Magnetic TweezersBiophysical Journal, 1999
- Determining Microscopic Viscoelasticity in Flexible and Semiflexible Polymer Networks from Thermal FluctuationsMacromolecules, 1997
- Particle Tracking Microrheology of Complex FluidsPhysical Review Letters, 1997
- Hydrodynamical modes and light scattering in the liquid-crystalline cubic blue phases. II. Dynamic theoryPhysical Review E, 1995