Characterization of optically driven fluid stress fields with optical tweezers
- 26 September 2005
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review E
- Vol. 72 (3) , 031507
- https://doi.org/10.1103/physreve.72.031507
Abstract
We present a controlled stress microviscometer with applications to complex fluids. It generates and measures microscopic fluid velocity fields, based on dual beam optical tweezers. This allows an investigation of bulk viscous properties and local inhomogeneities at the probe particle surface. The accuracy of the method is demonstrated in water. In a complex fluid model (hyaluronic acid), we observe a strong deviation of the flow field from classical behavior. Knowledge of the deviation together with an optical torque measurement is used to determine the bulk viscosity. Furthermore, we model the observed deviation and derive microscopic parameters.Keywords
This publication has 25 references indexed in Scilit:
- Microrheology of solutions of semiflexible biopolymer filaments using laser tweezers interferometryPhysical Review E, 2004
- Optical Microrheology Using Rotating Laser-Trapped ParticlesPhysical Review Letters, 2004
- Avidity enhancement of L-selectin bonds by flowThe Journal of cell biology, 2003
- Observation of the Transfer of the Local Angular Momentum Density of a Multiringed Light Beam to an Optically Trapped ParticlePhysical Review Letters, 2003
- Creeping Flow around a Sphere in a Shear Flow Close to a WallThe Quarterly Journal of Mechanics and Applied Mathematics, 2003
- Two-point microrheology and the electrostatic analogyPhysical Review E, 2001
- Particle Tracking Microrheology of Complex FluidsPhysical Review Letters, 1997
- Polymers interacting with spherical and rodlike particlesPhysical Review E, 1996
- Methods of Digital Video Microscopy for Colloidal StudiesJournal of Colloid and Interface Science, 1996
- Shear-rate, concentration, molecular weight, and temperature viscosity dependences of hyaluronate, a wormlike polyelectrolyteMacromolecules, 1993