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Near-Field Probe of Thermal Fluctuations of a Hemispherical Bubble Surface

Z. Zhang, Y. Wang, Y. Amarouchene, R. Boisgard, H. Kellay, A. Würger, A. Maali

2021Physical Review Letters13 citationsDOIOpen Access PDF

Abstract

We report measurements of resonant thermal capillary oscillations of a hemispherical liquid gas interface obtained using a half bubble deposited on a solid substrate. The thermal motion of the hemispherical interface is investigated using an atomic force microscope cantilever that probes the amplitude of vibrations of this interface versus frequency. The spectrum of such nanoscale thermal oscillations of the bubble surface presents several resonance peaks and reveals that the contact line of the hemispherical bubble is pinned on the substrate. The analysis of these peaks allows us to measure the surface viscosity of the bubble interface. Minute amounts of impurities are responsible for altering the rheology of the pure water surface.

Topics & Concepts

BubbleMaterials scienceThermalCantileverCapillary waveCapillary actionViscosityAmplitudeMaximum bubble pressure methodImpurityResonance (particle physics)Surface (topology)OpticsNanoscopic scaleVibrationMechanicsSurface tensionMicroscopeRheologySurface forces apparatusMolecular physicsLine (geometry)Non-contact atomic force microscopyEvaporationMicroscopyThermal fluctuationsForce Microscopy Techniques and ApplicationsPickering emulsions and particle stabilizationUltrasound and Cavitation Phenomena
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