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Shear Induced Particle Migration in Locally Driven Brownian Suspensions
Yael Roichman
, Ilya Svetlizky
School of Chemistry
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Dive into the research topics of 'Shear Induced Particle Migration in Locally Driven Brownian Suspensions'. Together they form a unique fingerprint.
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Keyphrases
Brownian Force
50%
Brownian Particle
50%
Brownian Suspension
100%
Bulk Force
50%
Circular Motion
50%
Colloidal Dispersion
100%
Complex Fluids
100%
Constitutive Model
50%
Deformed Microstructure
50%
Density Profile
100%
Field-induced
50%
Flow Field
50%
High-to-Low
50%
Hydrodynamic Interaction
50%
Low Strain
50%
Non-homogeneity
50%
Optical Tweezers
50%
Particle Density
50%
Particle Phase
50%
Phenomenology
50%
Rate Region
50%
Rheometry
50%
Shear Force
50%
Shear-induced Particle Migration
100%
Strain Rate
50%
Strong Gradient
50%
Thermal Equilibrium
50%
Two-dimensional Layer
50%
Two-phase Fluid
50%
Engineering
Brownian Particle
50%
Circular Motion
50%
Complex Fluid
100%
Constitutive Model
50%
Deformed Microstructure
50%
Flow Field
50%
Hydrodynamic Interaction
50%
Length Scale
50%
Lower Strain Rate
50%
Microscale
50%
Optical Tweezers
50%
Particle Density
50%
Particle Phase
50%
Phase Fluid
50%
Rate Region
50%
Rates of Strain
50%
Shear Force
50%
Strong Form
50%
Thermal Equilibrium
50%
Two Dimensional
50%
Physics
Complex Fluid
100%
Flow Distribution
50%
Inhomogeneity
50%
Optical Tweezer
50%
Strain Rate
100%
Material Science
Complex Fluid
66%
Density
100%
Hydrodynamics
33%
Optical Tweezer
33%
Strain Rate
66%
Earth and Planetary Sciences
Flow Distribution
50%
Microbalance
50%
Strain Rate
100%