Spinodal dewetting in a volatile liquid film.

The coexistence of film domains of different thickness in an evaporating film of a polar liquid on a solid substrate is studied using the multiscale expansion technique. The propagation speed of a straight-line front is computed both in the quasistationary approximation and in the comoving frame. The limit of long-scale zigzag instability is computed. The instability is observed during evaporation only and exists in a range of propagation velocities bounded both from below and from above; during condensation, the propagating front is always stable. Computations for a circular front yield a critical nucleation radius for a thin film and confirm the anomalous dependence of the evaporation rate on the droplet radius observed in recent experiments.