The Geometry of the Vapor Layer Under a Leidenfrost Drop

A. Franco; A. L. Sharpe; J. C. Burton; R. C. A. van der Veen; S. R. Nagel

arxiv: 1202.2157 · v3 · pith:Q25XQQZSnew · submitted 2012-02-10 · ❄️ cond-mat.soft · physics.flu-dyn

The Geometry of the Vapor Layer Under a Leidenfrost Drop

J. C. Burton , A. L. Sharpe , R. C. A. van der Veen , A. Franco , S. R. Nagel This is my paper

classification ❄️ cond-mat.soft physics.flu-dyn

keywords vapordropdropsgeometryinterfacelayerleidenfrostliquid

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In the Leidenfrost effect, liquid drops deposited on a hot surface levitate on a thin vapor cushion fed by evaporation of the liquid. This vapor layer forms a concave depression in the drop interface. Using laser-light interference coupled to high-speed imaging, we measured the radius, curvature, and height of the vapor pocket, as well as non-axisymmetric fluctuations of the interface for water drops at different temperatures. The geometry of the vapor pocket depends primarily on the drop size and not on the substrate temperature.

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The Geometry of the Vapor Layer Under a Leidenfrost Drop

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