Microrheology measurements with a hanging-fiber AFM probe

Audrey Steinberger (Phys-ENS); Clemence Devailly (Phys-ENS); Justine Laurent (Phys-ENS); Ludovic Bellon (Phys-ENS); Sergio Ciliberto (Phys-ENS)

arxiv: 1311.2217 · v1 · pith:NHYGHIY2new · submitted 2013-11-09 · ❄️ cond-mat.soft · cond-mat.stat-mech· physics.flu-dyn

Microrheology measurements with a hanging-fiber AFM probe

Clemence Devailly (Phys-ENS) , Justine Laurent (Phys-ENS) , Audrey Steinberger (Phys-ENS) , Ludovic Bellon (Phys-ENS) , Sergio Ciliberto (Phys-ENS) This is my paper

classification ❄️ cond-mat.soft cond-mat.stat-mechphysics.flu-dyn

keywords cantileverfiberaccuratelydeflectiondissipationliquidmethodmodel

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A method to measure the viscosity of liquids at microscales is presented. It uses a thin glass fiber fixed on the tip of the cantilever of an extremely low noise Atomic Force Microscope (AFM), which accurately measures the cantilever {deflection}. When the fiber is dipped into the liquid the dissipation of the cantilever-fiber system increases. This dissipation, linked to the liquid viscosity, is computed from the power spectral density of the thermal fluctuations of the cantilever {deflection}. The {high sensitivity of the AFM} allows us to show the existence and to develop a model of the coupling between the dynamics of the fiber and that of the cantilever. This model {accurately} fits the experimental data. The advantages and draw-backs of the method are discussed

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Microrheology measurements with a hanging-fiber AFM probe

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