Abstract
We have used video imaging and interferometric techniques to investigate the dynamics of spreading of drops of He4 on a solid surface for temperatures ranging from 5.2 K (near the critical point) to 2.2 K (near Tλ). After an initial transient, the drops become pancake-shaped with a radius that grows as R(t)≈tα, with α=0.149±0.002. The drops eventually begin to shrink due to evaporation driven by gravitational and curvature effects, which limits their lifetime to about 1000 s. Although helium completely wets the substrate, and the spreading takes place over a pre-existing adsorbed film, a distinct contact line with a contact angle of order one degree is visible throughout this process.
Cite
CITATION STYLE
Mallin, D., Langley, K. R., Aguirre-Pablo, A. A., Wallace, M. L., Milgie, M., Thoroddsen, S. T., & Taborek, P. (2020). Spreading of Normal Liquid Helium Drops. Physical Review E, 102(4). https://doi.org/10.1103/PhysRevE.102.043105
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