Abstract
The retraction of thin films, as described by the Taylor-Culick (TC) theory, is subject to widespread debate, particularly for films at the nanoscale. We use non-equilibrium molecular dynamics simulations to explore the validity of the assumptions used in continuum models by tracking the evolution of holes in a film. By deriving a new mathematical form for the surface shape and considering a locally varying surface tension at the front of the retracting film, we reconcile the original theory with our simulation to recover a corrected TC speed valid at the nanoscale.
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CITATION STYLE
Rahman, M. R., Shen, L., Ewen, J. P., Collard, B., Heyes, D. M., Dini, D., & Smith, E. R. (2023). Non-equilibrium molecular simulations of thin film rupture. Journal of Chemical Physics, 158(15). https://doi.org/10.1063/5.0149974
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